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SUMMARY:ONLINE COURSE - Path analysis\, structural equations and causal inference for biologists (PSCB03) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, October 20th\, 2025\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructors will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCOURSE PROGRAM\nTIME ZONE – Eastern Daylight Time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you). \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				This course\, based primarily on my 2016 book\, teaches you how to use path analysis and structural equations modelling to test causal hypotheses using observational data that is typical of research in ecology and evolution. It is taught in half-day sessions so that you can practice individually after each half-day session. You will learn how to conduct these tests\, why (andwhen) they are justified\, and how to interpret the results. The first few lectures will primarily present the theory but practical sessions will become more prominent later in the course. Thepractical work will be based on R and RStudio. Students will receive R script\, datasets\, and a list of R packages to install. It is highly recommended that each student have a copy of my 2016 book for the course\, but not essential. \nBy the end of the course\, participants should be able to: Understand the logical relationships between d-separation\, data\, and causal hypotheses. Know when to use piecewise SEM\, when to use covariance- based SEM\, and the advantages/disadvantages and assumptions of each Be able to construct\, test\, and interpret measurement models involving latent variables Be able to construct and identify equivalent models Be able to incorporate nested or mixed models\, multigroup models\, and non-normal distributions into SEM \nParticipants are encouraged to bring their own data\, as there will be opportunities throughout the course to plan\, analyze\, and receive feedback on structural equation models. \n			\n				\n				\n				\n				\n				Intended Audiences\n				Scientists generally\, and ecologists specifically\, who want to test hypotheses concerning cause-and-effect relationships involving several variables\, especially involving observational data. \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Details\n				Availability – TBC \nDuration – 7 x 1/2 days \nContact hours – Approx. 25 hours \nECT’s – Equal to 2 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				This course involves a mixture of theory and practical work. Data and analytical approaches will be presented in a lecture format to explain key concepts. Statistical analyses will then be presented using R. All R script that the instructor uses during these sessions will be shared with participants\, and R script will be presented and explained. \n			\n				\n				\n				\n				\n				Assumed quantative knowledge\n				Experience in using R and RStudio for statistical analysis. A basic understanding of statistical inference and regression methods. A familiarity of more advanced regression models (mixed models\, generalized linear models) is an asset but is not essential. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Proficiency with R programming language\, including: importing/exporting data; manipulating data in the R environment; constructing and evaluating basic statistical models (e.g.\, lm()).\n			\n				\n				\n				\n				\n				Equipment and software requirements\n				A computer with the most recent version of R and RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. A full list of required packages will be made available to participants prior to the course. \nhttps://cran.r-project.org/Download RStudio \nUNSURE ABOUT SUITABLILITY THEN PLEASE ASK oliverhooker@prstatistics.com \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n \n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\nPLEASE READ – CANCELLATION POLICY \n\n\nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited \n\n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n  \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 20th\n				Day 1 08:30 – 12:00Causal inference using experiments vs. observations (1h) Randomised experiments are the gold standard Limitations on randomised experiments The logic of controlled experiments Limitations of controlled experiments Physical control vs. observational control DAGs\, d-separation and data (2h) Translating from the language of causality to the language of statistics Directed acyclic graphs (DAGS) and d-separation D-separation and statistical conditioning The difference between experimental control and statistical conditioning The logic of causal inference using d-separation \n			\n				\n				\n				\n				\n				Tuesday 21st\n				Day 2 08:30 – 12:00Path analysis using piecewise structural equation modelling (1h30) D-separation basis sets of a DAG The steps in conducting a piecewise SEM Rejecting or provisionally accepting your path model Path coefficients as measures of direct causal effect Decomposing causal effects \nPractical work (2h) \n			\n				\n				\n				\n				\n				Wednesday 22nd\n				Day 3 8:30 – 12:00Path analysis using piecewiseSEM (2h30) The piecewiseSEM library in R \nPractical work (1h) \n  \n			\n				\n				\n				\n				\n				Thursday 23rd\n				Day 4 08:30 – 12:00Equivalent models and AIC statistics (2h) Statistical power in SEM Provisionally accepting a causal hypothesis What is a “d-separation equivalent” DAG Rules for identifying equivalent models AIC statistic to compare between non-equivalent models How to interpret AIC statistics \nPractical work (1h30) \n			\n				\n				\n				\n				\n				Friday 24th\n				Day 5 08:30 – 12:00Covariance-based path analysis (2h) Translating the DAG into “structural equations” The model-predicted covariance matrix An intuitive explanation of maximum likelihood estimation Estimating the free parameters via ML The concept of “degrees of freedom” The ML chi-squared statistic of model fit Rejecting (or not) your SE model \nCovariance-based path analysis using lavaan (1h30) \n			\n				\n				\n				\n				\n				Monday 27th\n				Day 6 08:30 – 11:30 \nLatent variables and measurement models (3h) Removing latent variables from a DAG DAGs and MAGs DAG.to.MAG() function When you can’t remove a latent: measurement models Measurement models and ML estimation Fixing the scale of a latent variable Measurement models and minimum degrees of freedom Measurement models in lavaan Empirical example: measuring soil fertility \n			\n				\n				\n				\n				\n				Tuesday 28th\n				Day 7 08:30 – 12:00 \nPractical using measurement models (1h) \nThe full structural equation model (2h30) Model identification: structural and empirical Composite variables and composite latents Consequences and solutions for small sample sizes Consequences and solutions for non-normal data Measures of approximate fit Missing data Reporting results in publications \n			\n				\n				\n				\n				\n				Wednesday 29th\n				Day 8 08:30 – 12:00Multigroup models (2h) What is causal heterogeneity? The concept of nested models How to fit multigroup models in lavaan \nPractical: putting everything together (1h30) \n			\n				\n				\n				\n				\n				Thursday 30th\n				Day 9 9:00 – 12:00Practical and group presentations of results \n			\n			\n				\n				\n				\n				\n				\n				\n					Bill Shipley\n					\n					Bill Shipley is an experienced researcher and  \nteacher in plant ecology and statistical ecology.  He has published four scientific monographs and over 170 peer-reviewed papers.
URL:https://prstats.preprodw.com/course/path-analysis-structural-equations-and-causal-inference-for-biologists-pscb03/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time Zone\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
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DTSTART;VALUE=DATE:20251006
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UID:10000460-1759708800-1760140799@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Bioacoustics Data Analysis using R (BIAC05) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, October 6th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you. \nTime Zone\nTIME ZONE – GMT – Please email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you).\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About this course\n				The study of animal acoustic signals is a central tool for many fields in behavior\, ecology\, evolution and biodiversity monitoring. The accessibility of recording equipment and growing availability of open-access acoustic libraries provide an unprecedented opportunity to study animal acoustic signals at large temporal\, geographic and taxonomic scales. However\, the diversity of analytical methods and the multidimensionality of these signals posts significant challenges to conduct analyses that can quantify biologically meaningful variation. The recent development of acoustic analysis tools in the R programming environment provides a powerful means for overcoming these challenges\, facilitating the gathering and organization of large acoustic data sets and the use of more elaborated analyses that better fit the studied acoustic signals and associated biological questions. The course will introduce students on the basic concepts in animal acoustic signal research as well as hands-on experience on analytical tools in R. \nBy the end of the course\, participants should: \n\nUnderstand the basic concepts of bioacoustics and how animal acoustic signals are analyzed\nGain proficiency in handling and manipulating acoustic data in R\, including working with ‘wave’ objects and other audio formats\nDevelop skills in building and interpreting spectrograms using Fourier transform techniques and the seewave package in R\nImport Raven Pro annotations into R and refine these annotations with warbleR functions\nUnderstand how to quantify the structure of acoustic signals through various approaches\nGain experience in quality control of recordings and annotations\, ensuring data integrity and accuracy\nCompare different methods for quantifying acoustic signal structure and understand the implications of each approach\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				\nAcademics and post-graduate students conducting research in bioacoustics\, animal behavior\, ecology\, or related fields\nApplied researchers and analysts in public\, private\, or non-profit organizations who require robust\, reproducible\, and flexible tools for analyzing acoustic data\nCurrent R users seeking to expand their knowledge into the field of bioacoustics and learn how to utilize specialized packages for acoustic analysis\nWildlife biologists\, and conservationists interested in leveraging bioacoustic methods for species monitoring and behavioral studies\nData scientists and programmers interested in applying their coding skills to the analysis of animal acoustic signals\n\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Details\n				Time Zone – GMT \nAvailability – 20 places \nDuration – 5 days\, 4 hours per day \nContact hours – Approx. 20 hours \nECT’s – Equal to 2 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				Introductory lectures on the concepts and refreshers on R usage. Intermediate-level lectures interspersed with hands-on mini practicals and longer projects. Data sets for computer practicals will be provided by the instructors\, but participants are welcome to bring their own data. \n \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of statistical concepts. Specifically\, generalised linear regression models\, statistical significance\, hypothesis testing. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Familiarity with R. Ability to import/export data\, manipulate data frames\, fit basic statistical models & generate simple exploratory and diagnostic plots. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. R may be downloaded by following the links here https://www.r-project.org/. RStudio may be downloaded by following the links here: https://www.rstudio.com/. \n\n\nAll the R packages that we will use in this course will be possible to download and install during the workshop itself as and when they are needed\, and a full list of required packages will be made available to all attendees prior to the course. \n\n\nA working webcam is desirable for enhanced interactivity during the live sessions\, we encourage attendees to keep their cameras on during live zoom sessions. \n\n\nAlthough not strictly required\, using a large monitor or preferably even a second monitor will improve he learning experience \n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				\n\n\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Programme\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 6th\n				Day 1 – Classes from 13:30 – 17:30Introduction \n– How animal acoustic signals look like?An overview of the variety of acoustic signals produced by animals\, with examples from differentspecies. This includes visualizing sound waves and spectrograms to understand their structureand complexity. \n– Analytical workflow in bioacoustics researchIntroduction to the step-by-step process involved in bioacoustic research\, from recording anddata collection to analysis and interpretation. This session will outline the typical workflow\,emphasizing the importance of each step. \n– Advantages of programmingDiscussion on the benefits of using programming languages like R for bioacoustic analysis\,including reproducibility\, efficiency\, and the ability to handle large datasets. This will highlighthow programming can enhance research capabilities. \nWhat is sound?– Sound as a time seriesExplanation of how sound can be represented as a time series\, with each point in the seriesrepresenting the sound pressure level at a given moment in time. This forms the basis for furtheranalysis and manipulation. \n– Sound as a digital objectDiscussion on the digitization of sound\, including sampling rates\, bit depth\, and the conversion ofanalog sound waves into digital formats that can be analyzed using software. \n– Acoustic data in RIntroduction to handling and analyzing acoustic data in R. This includes importing sound files\,basic data exploration\, and visualization techniques. \n– ‘wave’ object structureExplanation of the ‘wave’ object in R\, its structure\, and the information it contains. This isessential for understanding how to manipulate and analyze sound data in R. \n– ‘wave’ object manipulationsTechniques for manipulating ‘wave’ objects\, including trimming\, concatenating\, and modifyingsound files. Practical exercises will be provided to reinforce these concepts. \n– Additional formatsOverview of other audio file formats (e.g.\, MP3\, FLAC) and how they can be converted and used inR for bioacoustic analysis. \n			\n				\n				\n				\n				\n				Tuesday 7th\n				Day 2 – Classes from 13:30 – 17:30 \nBuilding spectrograms– Fourier transformExplanation of the Fourier transform and its application in converting time-domain signals intofrequency-domain representations. This is the foundation for creating spectrograms. \n– Building a spectrogramStep-by-step guide on how to construct spectrograms\, including parameter selection (e.g.\,window size\, overlap) and interpretation of the resulting visual representations. \n– Characteristics and limitationsDiscussion on the strengths and limitations of spectrograms\, including resolution trade-offs andpotential artifacts. Participants will learn to critically evaluate spectrograms. \n– Spectrograms in RPractical session on generating and customizing spectrograms in R using the seewave package.Participants will create spectrograms from their own data.Package seewave \n– Explore\, modify and measure ‘wave’ objectsHands-on exploration of the seewave package\, focusing on functions for modifying andmeasuring 'wave' objects. This includes exercises on filtering\, re-sampling\, and extracting acousticfeatures. \n– Spectrograms and oscillogramsCreating and interpreting both spectrograms and oscillograms in R. Participants will learn tovisualize sound data in different ways to highlight various aspects of the signal. \n– Filtering and re-samplingTechniques for filtering (e.g.\, band-pass\, high-pass) and re-sampling sound files to focus onspecific frequency ranges or standardize sampling rates. \n– Acoustic measurementsUsing the seewave package to perform detailed acoustic measurements\, such as peak frequency\,dominant frequency\, and frequency range. Practical examples will be provided. \n			\n				\n				\n				\n				\n				Wednesday 8th\n				Day 3 – Classes from 13:30 – 17:30 \nAnnotations– Introduction to the Raven Pro InterfaceA guided tour of the Raven Pro software\, its main features\, and interface elements. Participantswill learn how to navigate the software efficiently. \n– Introduction to selections and measurementsInstruction on how to make selections within sound files and take basic measurements such asduration and frequency using Raven Pro. \n– Saving\, retrieving\, and exporting selection tablesHow to save\, retrieve\, and export selection tables in Raven Pro for further analysis. This sessionwill cover best practices for data management and organization. \n– Using annotationsTechniques for annotating sound files in Raven Pro\, including the use of labels and notes to marksignificant events or features within the recordings. \nQuantifying acoustic signal structure– Spectro-temporal measurements (spectro_analysis())Introduction to the spectro_analysis() function in R for extracting spectro-temporalmeasurements from audio recordings. Participants will learn to describe acoustic signals in termsof their temporal and spectral characteristics. \n– Parameter descriptionDetailed explanation of key acoustic parameters\, such as duration\, frequency range\, andamplitude\, and how they are used to describe sound signals. \n– Harmonic contentTechniques for analyzing the harmonic content of signals\, including identifying harmonic seriesand measuring harmonic-to-noise ratios. \n– Cepstral coefficients (mfcc_stats())Introduction to Mel-frequency cepstral coefficients (MFCCs) and their use in characterizing thetimbral properties of sound signals. Participants will use the mfcc_stats() function to extractMFCCs. \n– Cross-correlation (cross_correlation())Explanation of cross-correlation techniques for comparing sound signals. Participants will usecross_correlation() to measure the similarity between different recordings. \n– Dynamic time warping (freq_DTW())Introduction to dynamic time warping (DTW) and its application in aligning and comparing time-series data. The freq_DTW() function will be used to compare sound signals. \n– Signal-to-noise ratio (sig2noise())Techniques for calculating the signal-to-noise ratio (SNR) of recordings\, which is crucial forassessing the quality of sound data. \n– Inflections (inflections())Identifying and measuring inflections in sound signals\, which can indicate changes in pitch orother dynamic features. \n– Parameters at other levels (song_analysis())Exploring acoustic parameters at higher hierarchical levels\, such as entire songs or sequences ofvocalizations\, using the song_analysis() function. \n			\n				\n				\n				\n				\n				Thursday 9th\n				Day 4 – Classes from 13:30 – 17:30 \nQuality control in recordings and annotations– Create catalogsCompiling catalogs of annotated sound files\, which can be used for further analysis or asreference materials. \n– Check and modify sound file format (check_wavs()\, info_wavs()\, duration_wavs()\,mp32wav() y fix_wavs())Techniques for checking and modifying sound file formats using various functions in R. Thisincludes converting files\, checking file integrity\, and fixing common issues. \n– Tuning spectrogram parameters (tweak_spectro())Adjusting spectrogram parameters to optimize the visualization and analysis of sound signals.Participants will use tweak_spectro() to fine-tune their spectrograms. \n– Double-checking selection tables (check_sels()\, spectrograms()\, full_spectrograms() &catalog())Methods for verifying and refining selection tables\, ensuring that all annotations are accurate andcomprehensive. \n– Re-adjusting selections (tailor_sels())Techniques for re-adjusting selections in response to quality control checks\, ensuring that allannotations are precise and correctly positioned.Characterizing hierarchical levels in acoustic signals \n– Creating ‘song’ spectrograms (full_spectrograms()\, spectrograms())Building spectrograms that represent entire songs or sequences of vocalizations\, providing ahigher-level view of acoustic patterns. \n– ‘Song’ parameters (song_analysis())Measuring and analyzing parameters at the song level\, such as song duration\, number ofelements and element rate\, using the song_analysis() function. \n			\n				\n				\n				\n				\n				Friday 10th\n				Day 5 – Classes from 13:30 – 17:30 \nChoosing the right method for quantifying structure– Compare different methods for quantifying structure (compare_methods())Comparing various methods for quantifying acoustic signal structure. Participants will usecompare_methods() to evaluate different approaches.Quantifying acoustic spaces \n– Intro to PhenotypeSpaceIntroduction to the concept of acoustic spaces and the PhenotypeSpace framework\, which allowsfor the visualization and comparison of acoustic diversity. \n– Quantifying space sizeTechniques for measuring the size of acoustic spaces\, which can provide insights into thevariability and complexity of vocalizations. \n– Comparing sub-spacesMethods for comparing different sub-spaces within the overall acoustic space\, allowing for theanalysis of variations between species\, populations\, or other groups. \nEach of these topics will be covered with detailed explanations\, practical examples\, and hands-onexercises to ensure that participants gain a comprehensive understanding of bioacoustics researchusing the R platform. \n			\n			\n				\n				\n				\n				\n				Course Instructor\n \n*\nDr. Marcelo Araya Salas\nWorks at – Neuroscience Research Center\, Universidad de Costa Rica \nMarcelo Araya-Salas works at the intersection of scientific programming and evolutionary behavioral ecology\, focusing on the evolution of behavior and the factors influencing it across cultural and evolutionary timescales. His research primarily examines the communication systems of neotropical species using single-species behavioral studies\, comparative phylogenetic methods\, and advanced data analysis techniques. He has developed several computational tools for biological data analysis\, including the R packages warbleR\, Rraven and baRulho which simplify the manipulation of annotated acoustic data and the quantification of structure and degradation of animal sounds. \nResearchGate \nGoogle Scholar \nWork Homepage \nPersonal Homepage
URL:https://prstats.preprodw.com/course/bioacoustics-data-analysis-biac05/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/BIAC02R.png
GEO:55.378051;-3.435973
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250616
DTEND;VALUE=DATE:20250621
DTSTAMP:20260419T022539
CREATED:20250128T153600Z
LAST-MODIFIED:20250128T180420Z
UID:10000468-1750032000-1750463999@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Tidyverse for Ecologists (TIDY01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, June 16th\, 2025\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCourse Program\nTIME ZONE – Ireland local time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you.\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				This course comprehensively introduces the Tidyverse and focuses on its use in data science projects. It is designed to give participants a strong foundation in R programming\, core Tidyverse packages\, and the Tidymodels framework. The course emphasises hands-on projects to apply learned concepts to real-world data analysis and modelling tasks applied to biology. By the end of the course\, participants should: Understand the fundamentals of R programming for data analysis. Be proficient in using core Tidyverse packages to clean\, transform\, and visualise data. Gain an introduction to basic machine learning concepts through the Tidymodels framework. Learn to preprocess\, build\, evaluate\, and interpret models using Tidymodels. Apply Tidyverse and Tidymodels tools to solve real-world problems through hands-on projects. \n			\n				\n				\n				\n				\n				Intended Audiences\n				\nAcademics and post-graduate students working on data science-related projects.\nData scientists and applied researchers in public or private sectors who need to integrateadvanced R programming language into their project workflows.\nProfessionals looking to integrate tidyverse packages into their workflows or enhance theirunderstanding of R programming language.\nEcologists looking to understand the basic principles of advanced R programming language and implement them in their research.\n\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Information\n				Time zone – Ireland local time \nAvailability – TBC \nDuration – 5 days \nContact hours – Approx. 35 hours \nECT’s – Equal to 3 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				Introductory and Intermediate-level lectures interspersed with hands-on projects. The instructors will provide datasets\, but participants are welcome to bring their data. Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. \nAll sessions will be video recorded and made available to all attendees as soon as possible. If some sessions are not at a convenient time due to different time zones\, attendees are encouraged to join as many of the live broadcasts as possible. \nAt the start of the first day\, we will ensure that everyone is comfortable with how Zoom works\, and we’ll discuss the procedure for asking questions and raising comments. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				No quantitative knowledge is required for this module. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Day one will cover the basics of R for the module. However\, some familiarity with any other programming language is welcome. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA computer with a working version of R or RStudio is required. R and RStudio are free and open-source software for PCs\, Macs\, and Linux computers. \nParticipants should be able to install additional software on their computers during the course (please ensure you have computer administration rights). \nAlthough not absolutely necessary\, a large monitor and a second screen could improve the learning experience. Participants are also encouraged to keep their webcams active to increase their interaction with the instructor and other students. \nDownload R \nDownload RStudio \nDownload Zoom \n\n\n  \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 16th\n				Day 1: A Short Course in R Basics (9:30 – 17:30) \nThis day provides participants with the foundational R skills required for working with Tidyverse andTidymodels. It is designed for beginners or those needing a refresher in R programming. \n Section 1 (R Essentials): This section focuses on R syntax\, variables\, data types\, conditionals (`if`\, `else`\, `elif`)\, loops (`for`\, `while`)\, and writing reusable code using functions. Section 2 (Data Structures and File Handling in R): This section emphasises understanding data structures (e.g.\, vectors\, data frames\, lists) and handling files by reading/writing data (e.g.\, CSVs) for manipulation and analysis. \n			\n				\n				\n				\n				\n				Tuesday 17th\n				Day 2: Fundamentals of Tidyverse I (9:30 – 17:30) \nThis day introduces participants to the foundational concepts of Tidyverse packages and theirapplications to data science projects. \n Section 3 (Data Manipulation I): This section covers the basics of data manipulation using `dplyr` functions such as `filter()`\, `select()`\, `mutate()`\, `arrange()`\, and `summarise ()`. Participants will learn how to clean\, transform\, and prepare datasets for analysis. Section 4 (Data Visualisation I): This section introduces the principles of data visualisation using `ggplot2`. Participants will learn how to create basic plots such as scatterplots\, bar charts\, and line graphs while exploring the grammar of graphics. \n			\n				\n				\n				\n				\n				Wednesday 18th\n				Day 3: Fundamentals of Tidyverse II (9:30 – 17:30) \nThis day builds on the foundations established in Day 2 and dives deeper into advanced datamanipulation and visualisation techniques. \n Section 5 (Data Manipulation II): This section extends the use of `dplyr` by introducing morecomplex operations such as joins\, grouping with `group_by()`\, and working with pipelines using`%>%`. Finally\, additional packages will be presented to enhance data manipulationprogramming. Section 6 (Data Visualisation II): Participants will explore advanced visualisation techniquesusing extensions of `ggplot2`\, such as creating animated plots with the `gganimate` package andinteractive visualisations with additional tools. \n			\n				\n				\n				\n				\n				Thursday 19th\n				Day 4: Applying Tidyverse Fundamentals to Data Modelling (9:30 – 17:30) \nThis day introduces participants to machine learning concepts using core libraries for statistical modelling and deep learning. \n Section 7 (Introduction to regression): This section focuses on regression modelling usingTidymodels. Participants will learn to implement linear regression models\, evaluate modelperformance\, and interpret results. Section 8 (Introduction to Classification): This section introduces techniques such as supportvector machines and neural networks using Tidymodels. Participants will also explore methodsfor assessing the performance of classification models. \n			\n				\n				\n				\n				\n				Friday 20th\n				Day 5: Data Science Workflow with Tidyverse (9:30 – 17:30) \nOn the final day\, participants will apply all their newly acquired skills to solve real-world problemsinspired by ecological datasets. \n Section 9 (The data science workflow): The workflow will be illustrated based on the corepackages introduced. The book "R for Data Science" will serve as a base literature for this day Section 10 (Hands-on project): Participants will work through a complete data science workflow\, including data cleaning\, transformation\, visualisation\, modelling\, and communication of results. \n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Gabriel Palma \nGabriel R. Palma obtained a B.Sc. in Biology from the University of São Paulo\, Brazil in 2021. He is currently a PhD researcher at the Hamilton Institute at Maynooth University\, Ireland\, funded by the Science Foundation Ireland’s Centre for Research Training in Foundations of Data Science. His research interests include statistical and mathematical modelling\, machine vision\, machine learning\, and applications to ecology and entomology. His personal webpage can be found here \nResearchGate\nGoogleScholar \n 
URL:https://prstats.preprodw.com/course/tidyverse-for-ecologists-tidy01/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2024/07/Screenshot-2024-07-05-at-15.29.57.png
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250512
DTEND;VALUE=DATE:20250517
DTSTAMP:20260419T022539
CREATED:20230906T131146Z
LAST-MODIFIED:20241120T125945Z
UID:10000351-1747008000-1747439999@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Movement Ecology Using R(MOVE07) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, May 12th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructors will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTime Zone\nTIME ZONE – GMT+1 – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you. \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				The course will cover the concepts\, technology and software tools that can be used to analyse movement data (from ringing/CMR to VHF/GPS) in ecology and evolution. We will cover elementary and advanced analysis and modelling techniques broadly applicable across taxa\, from micro-organisms to vertebrates\, highlighting the advantages of a unified Movement Ecology framework. We will provide the necessary bases in ecology (especially behavioural ecology)\, physics and mathematics/statistics\, to be able to identify for any specific research question the most appropriate study species\, logging technology (incl. attachment methods)\, and statistical/mathematical modelling approach. We will specifically address the challenges and opportunities at each of the steps of the proposed ‘question-driven approach’\, combining theory with computer-based practicals in R. We will also address the challenges of applying the results of the analyses to applied management problems and communicate the findings to non-experts. \n			\n				\n				\n				\n				\n				Intended Audiences\n				Research postgraduates\, practicing academics and primary investigators in ecology and management and environmental professionals in government and industry. The course will also be of interest to researchers in geography\, mathematics and computer science working on movement analyses. \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Details\n				Availability – TBC \nDuration – 5 days \nContact hours – Approx. 37 hours \nECT’s – Equal to 3 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				Introductory lectures on the concepts and refreshers on R usage. Intermediate-level lectures interspersed with hands-on mini practicals and longer projects. Data sets for computer practicals will be provided by the instructors\, but participants are welcome to bring their own data.\n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of statistical\, mathematical and physical concepts. Specifically\, generalised linear regression models\, including mixed models; basic knowledge of trigonometry\, basic knowledge of calculus; basic knowledge of physics as relevant for biological systems. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Good familiarity with R. Ability to import/export data\, manipulate data frames\, fit basic statistical models (up to GLM); generate simple exploratory and diagnostic plots. Knowledge of more advanced models\, such as mixed models\, will be helpful\, as will a basic recollection of mathematical analysis. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. R may be downloaded by following the links here https://www.r-project.org/. RStudio may be downloaded by following the links here: https://www.rstudio.com/. \n\n\nAll the R packages that we will use in this course will be possible to download and install during the workshop itself as and when they are needed\, and a full list of required packages will be made available to all attendees prior to the course. \n\n\nA working webcam is desirable for enhanced interactivity during the live sessions\, we encourage attendees to keep their cameras on during live zoom sessions. \n\n\nAlthough not strictly required\, using a large monitor or preferably even a second monitor will improve he learning experience \n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n \n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited. \n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 12th\n				Classes from 12:00 to 20:30 GMT+1 \nDAY 1Movement FundamentalsConceptual component: Introduction to movement ecology\, movement and behaviour\, spatial and movement path analysis.Practical component: Movement path analysis I – from steps and turns to movement path segmentation; Movement path analysis II – movement modes (home rage\, dispersal\, migration\, nomadism) and the squared displacement method. \nAttendees will be guided through practicals by both instructors to ensure you get the most from their experience. \n			\n				\n				\n				\n				\n				Tuesday 13th\n				Classes from 12:00 – 20:30 GMT+1 \nDAY 2Home Range AnalysisConceptual component: Ecological definitions and interpretations of home ranges\, home range estimation\, comparisons between estimators and the question-driven approach.Practical component: Utilization distribution; comparison of contrasting kernel home range estimation methods\, isopleth creation\, core area & home range overlap. \nAttendees will be guided through practicals by both instructors to ensure you get the most from their experience. \n			\n				\n				\n				\n				\n				Wednesday 14th\n				Classes from 12:00 – 20:30 GMT+1 \nDAY 3Dynamic Interactions and Temporal Metrics of MovementConceptual component: Movements of interacting animals – static and dynamic interactions; scales of movement – first-passage and residence time analysis.Practical component: Static and dynamic interaction indices; estimation of first-passage and residence time metrics. \nAttendees will be guided through practicals by both instructors to ensure you get the most from their experience. \n			\n				\n				\n				\n				\n				Thursday 15th\n				Classes from 12:00 – 20:30 GMT+1 \nDAY 4Introduction to Resource Selection\, and Effects of ScaleConceptual component: Theories of resource and habitat selection\, history of approaches\, and current methodologies and caveats including definitions of availability and scale effects for RSF and other movement metricsPractical component: Data projections and R as a GIS; Scale-integrated models of movement\, availability sampling\, and RSF estimation and interpretation. \nAttendees will be guided through practicals by both instructors to ensure you get the most from their experience. \n			\n				\n				\n				\n				\n				Friday 16th\n				Classes from 12:00 – 20:30 GMT+1 \nDAY 5Step-Selection Functions and Instantaneous AvailabilityConceptual component: Introduction to step selection\, decision-making processes\, null and alternative models for definitions of availability within SSF\, movement-integrated step-selection analysisPractical component: Creation of available step data\, estimation of SSF using multiple packages and approaches\, simulation of utilization and occurrence distributions. \nAttendees will be guided through practicals by both instructors to ensure you get the most from their experience. \n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nProf. Luca Borger\nComing Soon \n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Garrett Street\nComing Soon
URL:https://prstats.preprodw.com/course/movement-ecology-using-rmove07/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time Zone\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/MOVE04R.png
GEO:53.1423672;-7.6920536
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250512
DTEND;VALUE=DATE:20250515
DTSTAMP:20260419T022539
CREATED:20250203T153317Z
LAST-MODIFIED:20250510T145311Z
UID:10000470-1747008000-1747267199@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, May 12th\, 2025\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nPre Recorded\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				In this three-day course\, we introduce species distribution models (SDMs) and ways toincorporate phylogenetic information into single species models using R. We begin byproviding an overview on the use of SDMs as a central tool for ecologists and evolutionarybiologists\, review and implement common SDM approaches and introduce hybrid models\,which use the information in functional traits to complement the models. We then justifythe rationale for using phylogenetic information in absence of functional trait data andshow how to incorporate phylogenetic information in SDMs (day 1). We review examplesof practical implementation of PSDMs to both present and future climate scenarios (day 2).Finally\, we overview more advanced approaches of incorporating phylogenies into models(the Bayesian Phylogenetic Mixed Model) and how to project model results into a spatialcontext (day 3). \n			\n				\n				\n				\n				\n				Intended Audiences\n				This course is aimed at anyone who wishes to improve/complement their use of SpeciesDistribution Models using phylogenies. \n			\n				\n				\n				\n				\n				Course Details\n				Venue – Delivered remotelyAvailability – 20 placesDuration – 3 daysContact hours – Approx. 18 hoursECT’s – Equal to 2 ECT’sLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				The course will be hands-on and workshop based. Throughout each day\, there will be some introductory remarks for each new topic\, introducing and explaining key concepts. \nThe course will take place online using Zoom. On each day\, the live video broadcasts willoccur between (UK local time) at:• 8:00am-10:00am• 11:00pm-13:00pm• 14:00pm-16:00pm \nAll sessions will be video recorded and made available to all attendees. \nAttendees in different time zones will be able to join into some of these live broadcasts\, even if all of them are not convenient times. \nBy joining any live sessions that are possible\, this will allow attendees to benefit Fromm asking questions and having discussions\, rather than just watching prerecorded sessions. \nAll the sessions will be video recorded\, and made available immediately on a private video hosting website. Any materials\, such as slides\, data sets\, etc.\, will be shared with the attendees. \n			\n				\n				\n				\n				\n				Assumed quantative knowledge\n				We will assume general familiarity with the very basics of statistics (e.g. summarystatistics\, distributions). \n			\n				\n				\n				\n				\n				Assumed computer background\n				We will assume general familiarity with R elementary operations (e.g. package sourcing\,data importing and exporting\, object indexing) and some familiarity with programming inR (writing code). \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer). \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\nUNSURE ABOUT SUITABLILITY THEN PLEASE ASK oliverhooker@prstatistics.com \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\nPLEASE READ – CANCELLATION POLICY \n\n\nCancellations/refunds are accepted as long as the course materials have not been accessed\,. \n\n\nThere is a 20% cancellation fee to cover administration and possible bank fess. \n\n\nIf you need to discuss cancelling please contact oliverhooker@prstatistics.com. \n\n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 12th\n				Classes from 8:00 to 16:00 \nIntroduction to species distribution models: rationale\, algorithms\, validation and applications. \n• Working with SDMs. Implementing SDMs in R.• Hybrid-SDMs or how to incorporate functional information into the models.• What to do in absence of functional trait data? The rationale for using the latent information in phylogenies instead.• The phylogenetic predictor. \n			\n				\n				\n				\n				\n				Tuesday 13th\n				Classes form 08:00 – 16:00 \nPutting phylogenies in the geography: how to combine phylogenies with speciesdistribution models in R. \n• Phylogenetic information can improve both present and future predictions ofspecies distributions.• Projecting phyloSDMs across space and time in R.• When and why phylogenies can and can’t improve models. \n			\n				\n				\n				\n				\n				Wednesday 14th\n				Classes form 08:00 – 16:00 \nPhylogenies also improve models for the temporal distribution of species. \n\nThe Bayesian Phylogenetic Mixed Model\nExamples of implementation of PMMs and extrapolating their predictions to thegeography in R.\n\n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Morales Castilla Ignacio \nDr. Morales-Castilla is a biogeographer and macroecologist interested in the spatial-temporal distribution of biodiversity. His research program aims to: (1) disentangle the relative roles of evolution and ecology as drivers of community structure\, (2) understand how different aspects of the species’ niches are evolutionarily conserved and\, (3) enhance models of biotic interactions and/or species distributions by integrating phylogenetic\, functional and geographic information. You can check his publication record at the links provided above. You can find hiss homepage here \nResearchGateGoogleScholarORCIDGitHub
URL:https://prstats.preprodw.com/course/phylogenetic-species-distribution-modelling-using-r-psdm01-25/
CATEGORIES:Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/ECPH01R.png
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250331
DTEND;VALUE=DATE:20250405
DTSTAMP:20260419T022540
CREATED:20211217T114057Z
LAST-MODIFIED:20241128T124632Z
UID:10000346-1743379200-1743811199@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Multivariate Analysis Of Ecological Communities Using R With The VEGAN package (VGNR07) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, March 31st\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTime Zone\nTIME ZONE – Eastern European Standard Time – however all sessions will be recorded and made available allowing attendees from different time zones to follow.\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				This 5-day course will cover R concepts\, methods\, and tools that can be used to analyze community ecology data. The course will review data processing techniques relevant to multivariate data sets. We will cover diversity indices\, distance measures and distance-based multivariate methods\, clustering\, classification and ordination techniques using the R package VEGAN. We will use real-world empirical data sets to motivate analyses\, such as describing patterns along gradients of environ-mental or anthropogenic disturbances\, quantifying the effects of continuous and discrete predictors. We will emphasise visualisation and reproducible workflows as well as good programming practices. The modules will consist of introductory lectures\, guided computer coding\, and participant exercises. The course is intended for intermediate users of R who are interested in community ecology\, particularly in the areas of terrestrial and wetland ecology\, microbial ecology\, and natural resource management. You are strongly encouraged to use your own data sets (they should be clean and already structured\, see the document: “recommendation if you participate with your data”. \nThis 5-day course covers R concepts\, methods\, and tools that can be used to analyse community ecology data using (but not limited to) the R package VEGAN. We will cover :\n\n\nFundamentals of community ecology\, \nDiversity indices\, \nMethods to transform data and calculate distance measures\,\nClassifications (i.e.\, clustering methods) organise the data into synthetic groups and present them in a tree (dendrogram).\nOrdinations (i.e.\, unconstrained methods) reveal the multivariate dimension in only a few dimensions (axes).\nCanonical ordinations (i.e.\, constrained methods) test hypotheses related to multivariate patterns.\n\n\n\nIn addition the course provides lectures and practices on how to create reproducible workflows and use good programming practices in R.\n\n\n \nDuring the workshops you will follow guided computer coding exercises using either your own data or real empirical datasets to motivate analyses. Exercises include describing patterns along gradients of environmental or anthropogenic disturbance\, quantifying the effects of continuous and discrete predictors.\n \nTopics covered during the course include: terrestrial and wetland ecology\, microbial ecology\, and natural resource management\, evolution\, palaeoecology.\n \nYou are strongly encouraged to use your own datasets (they should be clean and already structured\, please contact use if you plan to do this\, we will help you to prepare the data). You will benefit from full support in applying multivariate methods to your dataset (defining of the research question\, transforming your data\, selecting the most appropriate method\, carrying out the analysis and interpreting the results).\n\n \n\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				Any researchers (PhD and MSc students\, post-docs\, primary investigators) and environmental professionals who are interested in implementing best practices and state-of-the-art methods for modelling species’ distributions or ecological niches\, with applications to biogeography\, spatial ecology\, biodiversity conservation and related disciplines.\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely\n			\n				\n				\n				\n				\n				Course Details\n				Availability – 20 places \nDuration – 5 days \nContact hours – Approx. 35 hours \nECT’s – Equal to 3 ECT’s \nLanguage – English\n			\n				\n				\n				\n				\n				Teaching Format\n				The course will be divided into theoretical lectures to introduce and explain key concepts and theories\, and practices with workshop sessions on R. \n~2 modules per day\, each module consists of ~1h30/2h lecture + coding\, break\, ~1h30/2h exercises + summary/discussion. \nThe schedule can be slightly modified according to the interest of the participants. \nThe course will take place online. \nAll the sessions will be video recorded and made available immediately on a private video hosting website as soon as possible after each 2hr session.\n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				We will assume that you are familiar with basic statistical concepts\, linear models\, and statistical tests (the equivalent of an undergraduate introductory statistics course will be sufficient to follow the course).\n			\n				\n				\n				\n				\n				Assumed computer background\n				To take full advantage of this course\, minimal prior experience with R is required. Participants should be familiar with basic R syntax and commands\, know how to write code in the RStudio console and script editor\, load data from files (txt\, xls\, csv).\n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. R may be downloaded by following the links here https://www.r-project.org/. RStudio may be downloaded by following the links here: https://www.rstudio.com/. \n\n\nAll the R packages that we will use in this course will be possible to download and install during the workshop itself as and when they are needed\, and a full list of required packages will be made available to all attendees prior to the course. \n\n\nA working webcam is desirable for enhanced interactivity during the live sessions\, we encourage attendees to keep their cameras on during live zoom sessions. \n\n\nAlthough not strictly required\, using a large monitor or preferably even a second monitor will improve he learning experience \n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\nClasses from 08:00 – 13:00 and 14:00 – 16:00 \nDAY 1• Module 1: Introduction to community data analysis\, basics of programming in R• Module 2: Diversity analysis\, species-abundance distributions \nClasses from 08:00 – 13:00 and 14:00 – 16:00 \nDAY 2• Module 3: Distance and transformation measures• Module 4: Clustering and classification analysis \nClasses from 08:00 – 13:00 and 14:00 – 16:00 \nDAY 3• Module 5: Unconstrained ordinations: Principal Component Analysis• Module 6: Other unconstrained ordinations \nClasses from 08:00 – 13:00 and 14:00 – 16:00 \nDAY 4• Module 7: Constrained ordinations: RDA and other canonical analysis• Module 8: Statistical tests for multivariate data and variation partitioning \nClasses from 08:00 – 13:00 and 14:00 – 16:00 \nDAY 5• Module 9: Overview of Spatial analysis\, and recent Hierarchical Modeling of Species Communities (HMSC) methods• Modules 10: Special topics and discussion\, analyzing participants’ data. \n			\n				\n				\n				\n				\n				\n				\n					Antoine Becker-Scarpitta\n					\n					Antoine is a community ecologist and forest ecologist working as a researcher at The French agricultural research and international cooperation organization\, working for the sustainable development of tropical and Mediterranean regions. Antoine was a postdoctoral researcher at the University of Helsinki and the Institute of Botany of the Academy of the Czech Republic. He holds a degree in Conservation Biology from the University of Paris-Sud-Orsay\, and he obtained his PhD in Biology/Ecology from the University of Sherbrooke (Canada). Antoine’s research focuses on the temporal dynamics of biodiversity\, particularly on the forest and Arctic vegetation. Antoine has taught community ecology\, plant ecology and evolution\, linear and multivariate statistics assisted on R. \nResearchGate \nGoogle Scholar \nORCID \nGitHub
URL:https://prstats.preprodw.com/course/multivariate-analysis-of-ecological-communities-using-r-with-the-vegan-package-vgnr07/
LOCATION:Delivered remotely (Finland)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/VGNR04R.png
GEO:55.378051;-3.435973
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20250325
DTEND;VALUE=DATE:20250329
DTSTAMP:20260419T022540
CREATED:20230915T120720Z
LAST-MODIFIED:20250122T145633Z
UID:10000429-1742860800-1743206399@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Stable Isotope Mixing Models using  MixSIAR and SIBER (SIMM11) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nTuesday\, March 25th\, 2025\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCourse Program\nTIME ZONE – GMT+1 – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you). \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				This course will cover the concepts\, technical background and use of stable isotope mixing models (SIMMs) with a particular focus on running them in R. SIMMs have become a very popular tool for quantifying food webs and thus the diet of predators and prey in an ecosystem. Starting with only basic understanding of statistical models\, we will cover the do’s and don’ts of using SIMMs. We will then focus on the widely used package MixSIAR and SIBER packages. MixSIAR creates and runs Bayesian mixing models to analyze biological tracer data (i.e. stable isotopes\, fatty acids)\, which estimate the proportions of source (prey) contributions to a mixture (consumer). ‘MixSIAR’ is not one model\, but a framework that allows a user to create a mixing model based on their data structure and research questions\, via options for fixed/ random effects\, source data types\, priors\, and error terms. ‘MixSIAR’ incorporates several years of advances since ‘MixSIR’ and ‘SIAR’. SIBER fits bi-variate ellipses to stable isotope data using Bayesian inference with the aim being to describe and compare their isotopic niche. Participants will be taught the advanced features of these packages\, which will enable them to produce a richer class of output. Attendees are encouraged to bring their own data sets and problems to study during the round-table discussions. \n			\n				\n				\n				\n				\n				Intended Audiences\n				The course is aimed at biologists with a basic to moderate knowledge in R. The course is aimed at anyone (academic or industry) who research is heavily reliant on analysing stable isotope data. There is a strong association with data on food webs and trophic relationships\, but the tools learned can be applied to other systems.\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely\n			\n				\n				\n				\n				\n				Course Information\n				Availability – 30 places \nDuration – 4 days \nContact hours – Approx. 28 hours \nECT’s – Equal to 3 ECT’s \nLanguage – English\n			\n				\n				\n				\n				\n				Teaching Format\n				There will be morning lectures based on the modules outlined in the course timetable. In the afternoon there will be practicals based on the topics covered that morning. Data sets for computer practicals will be provided by the instructors\, but participants are welcome to bring their own data.\n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of statistical concepts. Specifically\, generalised linear regression models\, statistical significance\, hypothesis testing.\n			\n				\n				\n				\n				\n				Assumed computer background\n				Familiarity with R. Ability to import/export data\, manipulate data frames\, fit basic statistical models & generate simple exploratory and diagnostic plots.\n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer). \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Tuesday 25th\n				Classes from 09:30 to 17:30 \nDAY 1Basic concepts.Module 1: Introduction; why use a SIMM?Module 2: An introduction to bayesian statistics.Module 3: Differences between regression models and SIMMs.Practical: Revision on using R to load data\, create plots and fit statistical models.Round table discussion: Understanding the output from a Bayesian model. \n			\n				\n				\n				\n				\n				Wednesday 26th\n				Classes from 09:30 to 17:30 \nDAY 2Understanding and using SIAR.Module 4: Do’s and Don’ts of using SIAR.Module 5: The statistical model behind SIAR.Practical: Using SIAR for real-world data sets; reporting output; creating richer summaries and plots.Round table discussion: Issues when using simple SIMMs. \n			\n				\n				\n				\n				\n				Thursday 27th\n				Classes from 09:30 to 17:30 \nDAY 3SIBER and MixSIAR.Module 6: Creating and understanding Stable Isotope Bayesian Ellipses (SIBER).Module 7: What are the differences between SIAR and MixSIAR?Practical: Using MixSIAR on real world data sets; benefits over SIAR.Round table discussion: When to use which type of SIMM. \n			\n				\n				\n				\n				\n				Friday 28th\n				Classes from 09:30 to 17:30 \nDAY 4Advanced SIMMs.Module 8: Using MixSIAR for complex data sets: time series and mixed effects models.Module 9: Source grouping: when and how?Module 10: Building your own SIMM with JAGS.Practical: Running advanced SIMMs with JAGS.Round table discussion: Bring your own data set. \n			\n			\n				\n				\n				\n				\n				\n				\n					Andrew Jackson\n					\n					My research interests lie in understanding ecological systems from an evolutionary perspective. I tend to approach these questions by using computational / mathematical models to understand how the nuts and bolts of these systems work. Much of my current research focuses on understanding predator-prey interactions and how large fish use their spatial environment. My interests also extend to community ecology where the challenge is to understand how communities of organisms and species compete and interact with what is often a self-organising and stable system. \nResearch GateGoogle ScholarORCIDHomepageGitHub
URL:https://prstats.preprodw.com/course/online-course-stable-isotope-mixing-models-using-siber-siar-mixsiar-simm11/
LOCATION:Delivered remotely (Ireland)\, Western European Time\, Ireland
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/SIMM08R.png
GEO:55.378051;-3.435973
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250311
DTEND;VALUE=DATE:20250314
DTSTAMP:20260419T022540
CREATED:20201008T150900Z
LAST-MODIFIED:20241120T125055Z
UID:10000326-1741651200-1741910399@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Introduction To Mixed Models Using R And Rstudio (IMMR09) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nTuesday\, March 11th\, 2025\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE FORMAT\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCOURSE PROGRAM\nTIME ZONE – Ireland Local Time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you. \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				This course provides a comprehensive practical and theoretical introduction to multilevel models\, also known as hierarchical or mixed effects models. We will focus primarily on multilevel linear models\, but also cover multilevel generalized linear models. Likewise\, we will also describe Bayesian approaches to multilevel modelling. We will begin by focusing on random effects multilevel models. These models make it clear how multilevel models are in fact models of models. In addition\, random effects models serve as a solid basis for understanding mixed effects\, i.e. fixed and random effects\, models. In this coverage of random effects\, we will also cover the important concepts of statistical shrinkage in the estimation of effects\, as well as intraclass correlation. We then proceed to cover linear mixed effects models\, particularly focusing on varying intercept and/or varying slopes regression models. We will then cover further aspects of linear mixed effects models\, including multilevel models for nested and crossed data data\, and group level predictor variables. Towards the end of the course we also cover generalized linear mixed models (GLMMs)\, how to accommodate overdispersion through individual-level random effects\, as well as Bayesian approaches to multilevel levels using the brms R package. \n			\n				\n				\n				\n				\n				Intended Audiences\n				This course is aimed at anyone who is interested in using R for data science or statistics. R is widely used in all areas of academic scientific research\, and also widely throughout the public\, and private sector. \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Details\n				Availability – TBC \nDuration – 3 x 1/2 days \nContact hours – Approx. 12 hours \nECT’s – Equal to 1 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				This course will be largely practical\, hands-on\, and workshop based. For each topic\, there will first be some lecture style presentation\, i.e.\, using slides or blackboard\, to introduce and explain key concepts and theories. Then\, we will cover how to perform the various statistical analyses using R. Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. For the breaks between sessions\, and between days\, optional exercises will be provided. Solutions to these exercises and brief discussions of them will take place after each break. \nThe course will take place online using Zoom. On each day\, the live video broadcasts will occur during UK local time (GMT+0) at:• 10am-12pm• 1pm-3pm• 4pm-6pm \nAll sessions will be video recorded and made available to all attendees as soon as possible\, hopefully soon after each 2hr session. \nIf some sessions are not at a convenient time due to different time zones\, attendees are encouraged to join as many of the live broadcasts as possible. For example\, attendees from North America may be able to join the live sessions from 3pm-5pm and 6pm-8pm\, and then catch up with the 12pm-2pm recorded session once it is uploaded. By joining live sessions attendees will be able to benefit from asking questions and having discussions\, rather than just watching prerecorded sessions. \nAt the start of the first day\, we will ensure that everyone is comfortable with how Zoom works\, and we’ll discuss the procedure for asking questions and raising comments. \nAlthough not strictly required\, using a large monitor or preferably even a second monitor will make the learning experience better\, as you will be able to see my RStudio and your own RStudio simultaneously. \nAll the sessions will be video recorded\, and made available immediately on a private video hosting website. Any materials\, such as slides\, data sets\, etc.\, will be shared via GitHub. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				We will assume familiarity with general statistical concepts\, linear models\, statistical inference (p-values\, confidence intervals\, etc). Anyone who has taken undergraduate (Bachelor’s) level introductory courses on (applied) statistics can be assumed to have sufficient familiarity with these concepts. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Minimal prior experience with R and RStudio is required. Attendees should be familiar with some basic R syntax and commands\, how to write code in the RStudio console and script editor\, how to load up data from files\, etc. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. R may be downloaded by following the links here https://www.r-project.org/. RStudio may be downloaded by following the links here: https://www.rstudio.com/. \n\n\nAll the R packages that we will use in this course will be possible to download and install during the workshop itself as and when they are needed\, and a full list of required packages will be made available to all attendees prior to the course. \n\n\nA working webcam is desirable for enhanced interactivity during the live sessions\, we encourage attendees to keep their cameras on during live zoom sessions. \n\n\nAlthough not strictly required\, using a large monitor or preferably even a second monitor will improve he learning experience \n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n \n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited. \n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Tuesday 11th\n				Classes from 16:00 to 19:00 \nTopic 1: Random effects models. The defining feature of multilevel models is that they are models of models. We begin by using a binomial random effects model to illustrate this. Specifically\, we show how multilevel models are models of the variability in models of different clusters or groups of data. \nTopic 2: Normal random effects models. Normal\, as in normal distribution\, random effects models are the key to understanding the more general and widely used linear mixed effects models. Here\, we also cover the key concepts of statistical shrinkage and intraclass correlation. \n			\n				\n				\n				\n				\n				Wednesday 12th\n				Classes from 16:00 to 19:00 \nTopic 3: Linear mixed effects models. Next\, we turn to multilevel linear models\, also known as linear mixed effects models. We specifically deal with the cases of varying intercept and/or varying slope linear regression models. \nTopic 4: Multilevel models for nested data. Here\, we will consider multilevel linear models for nested\, as in groups of groups\, data. As an example\, we will look at multilevel linear models applied to data from students within classes that are themselves within different schools\, and where we model the variability of effects across the classes and across the schools. \nTopic 5: Multilevel models for crossed data. In some multilevel models\, each observation occurs in multiple groups\, but these groups are not nested. For example\, animals may be members of different species and in different locations\, but the species are not subsets of locations\, nor vice versa. These are known as crossed or multiclass data structures. \n			\n				\n				\n				\n				\n				Thursday 13th\n				Classes from 16:00 to 19:00 \nTopic 6: Group level predictors. In some multilevel regression models\, predictor variable are sometimes associated with individuals\, and sometimes associated with their groups. In this section\, we consider how to handle these two situations. \nTopic 7: Generalized linear mixed models (GLMMs). Here\, we extend the linear mixed model to the exponential family of distributions and showcase an example using the Poisson GLMM. We also cover how to accommodate overdispersion through individual-level random effects. \nTopic 8: Bayesian multilevel models. All of the models that we have considered can be handled\, often more easily\, using Bayesian models. Here\, we provide an brief introduction to Bayesian models and how to perform examples of the models that we have considered using Bayesian methods and the brms R package. \n  \n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Rafael De Andrade Moral \nRafael is an Associate Professor of Statistics at Maynooth University\, Ireland. With a background in Biology and a PhD in Statistics from the University of São Paulo\, Rafael has a deep passion for teaching and conducting research in statistical modelling applied to Ecology\, Wildlife Management\, Agriculture\, and Environmental Science. As director of the Theoretical and Statistical Ecology Group\, Rafael brings together a community of researchers who use mathematical and statistical tools to better understand the natural world. As an alternative teaching strategy\, Rafael has been producing music videos and parodies to promote Statistics in social media and in the classroom. His personal webpage can be found here \nResearchGateGoogleScholarORCIDGitHub
URL:https://prstats.preprodw.com/course/introduction-to-mixed-models-using-r-and-rstudio-immr09/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/IMMR06R.png
GEO:55.378051;-3.435973
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250226
DTEND;VALUE=DATE:20250301
DTSTAMP:20260419T022540
CREATED:20220218T204056Z
LAST-MODIFIED:20241216T161521Z
UID:10000309-1740528000-1740787199@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Community Analytics in Ecology and Evolutionary Biology for Beginners (CAFB01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nWednesday\, February 26th\, 2022\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTime Zone\nTIME ZONE – Eastern Standard Time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you). \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				This community analytics course is designed for students who have recently started their projects or researchers who are starting using the R ecosystem. During this three-day course\, we will cover the basic concepts of multivariate analysis and their implementation in R. This course is a complement to the PR Statistic offering allowing also beginners and non-programmers to discover the statistical tools needed to analyze an ecological dataset in research\, natural resource management or conservation context. This course is not geared toward any particular taxonomic group or ecological system. \nWe will cover diversity indices\, distance measures and multivariate distance-based methods\, clustering\, classification\, and ordination techniques. We will focus on the concept of the methods and their implementation on R using different R packages. We will use real-world examples to implement analyses\, such as describing patterns along gradients of environmental or anthropogenic disturbances\, quantifying the effects of continuous and discrete predictors\, data mining. The course will consist of lectures\, work on R code scripts\, and exercises for participants. \nPR stats also deliver a more advanced course on analysing community data \nONLINE COURSE – Multivariate Analysis Of Ecological Communities Using R With The VEGAN package (VGNR07) \n			\n				\n				\n				\n				\n				Intended Audiences\n				Any researchers (PhD and MSc students\, post-docs\, primary investigators) and environmental professionals who are interested in learning multivariate statistics. \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Details\n				Time Zone – Eastern Standard Time \nAvailability – 20 places \nDuration – 3 days \nContact hours – Approx. 21 hours \nECT’s – Equal to 2 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				The course will be divided into theoretical lectures to introduce and explain key concepts and theories\, and practices with workshop sessions on R. \n~2 modules per day\, each module consists of ~1h30/2h lecture + coding\, break\, ~1h30/2h exercises + summary/discussion. \nThe schedule can be slightly modified according to the interest of the participants. \nThe course will take place online. All the sessions will be video recorded and made available immediately on a private video hosting website as soon as possible after each 2hr session. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic knowledge of statistics is required. \n			\n				\n				\n				\n				\n				Assumed computer background\n				The participants are required to have some previous experience with R and should know the main data types and how to run commands to create basic plots. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer).  \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n \n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited. \n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\nThis 3-day course will explores the nature of community data\, and how they are transformed and analysed them in the context of ecological research projects. The course will explore the numerical tools used to describe ecological communities\, with a particular focus on R. \nWednesday 26th – Classes from 09:00-17:00 \n– Classifications (i.e.\, clustering methods) organise the data into synthetic groups and present them in a tree (dendrogram). \nThursday 27th – Classes from 09:00-17:00 \n– Ordinations (i.e.\, unconstrained methods) reveal the multivariate dimension in only a few dimensions (axes). \nFriday 28th – Classes from 09:00-17:00 \n– Canonical ordinations (i.e.\, constrained methods) test hypotheses related to multivariate patterns. \n			\n				\n				\n				\n				\n				Course Instructor\n \n  \n  \n  \nDr. Antoine Becker-Scarpitta\nWorks at – University of HelsinkTeaches – Multivariate analysis of ecological communities in R with the VEGAN package (VGNR03) \nAntoine is a plant community ecologist working as a postdoctoral researcher at the University of Helsinki and as a postdoctoral fellow at the Institute of Botany of the Academy of the Czech Republic. Antoine holds a degree in Conservation Biology from the University of Paris-Sud-Orsay\, and from the Natural History Museum of Paris\, he obtained his PhD in Biology/Ecology from the University of Sherbrooke (Canada). Antoine’s research focuses on the temporal dynamics of biodiversity with a particular focus on the forest and Arctic vegetation. Antoine has taught community ecology\, plant ecology and evolution\, linear and multivariate statistics assisted on R.
URL:https://prstats.preprodw.com/course/community-analytics-in-ecology-and-evolutionary-biology-for-beginners-cafb01/
LOCATION:Delivered remotely (Finland)\, Western European Time\, United Kingdom
CATEGORIES:Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/IMAE01.png
GEO:55.378051;-3.435973
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250225
DTEND;VALUE=DATE:20250228
DTSTAMP:20260419T022540
CREATED:20201010T135502Z
LAST-MODIFIED:20241120T124623Z
UID:10000328-1740441600-1740700799@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Introduction to generalised linear models using R and Rstudio (IGLM08) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nTuesday\, February 25th\, 2025\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCourse Program\nTIME ZONE – Ireland Local Time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you. \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				COURSE DETAILS \nThis course provides a comprehensive practical and theoretical introduction to generalized linear models using R. Generalized linear models are generalizations of linear regression models for situations where the outcome variable is\, for example\, a binary\, or ordinal\, or count variable\, etc. The specific models we cover include binary\, binomial\, and categorical logistic regression\, Poisson and negative binomial regression for count variables\, as well as extensions for overdispersed and zero-inflated data. We begin by providing a brief overview of the normal general linear model. Understanding this model is vital for the proper understanding of how it is generalized in generalized linear models. Next\, we introduce the widely used binary logistic regression model\, which is is a regression model for when the outcome variable is binary. Next\, we cover the binomial logistic regression\, and the multinomial case\, which is for modelling outcomes variables that are polychotomous\, i.e.\, have more than two categorically distinct values. We will then cover Poisson regression\, which is widely used for modelling outcome variables that are counts (i.e the number of times something has happened). We then cover extensions to accommodate overdispersion\, starting with the quasi-likelihood approach\, then covering the negative binomial and beta-binomial models for counts and discrete proportions\, respectively. Finally\, we will cover zero-inflated Poisson and negative binomial models\, which are for count data with excessive numbers of zero observations. \n			\n				\n				\n				\n				\n				Intended Audiences\n				This course is aimed at anyone who is interested in using R for data science or statistics. R is widely used in all areas of academic scientific research\, and also widely throughout the public\, and private sector. \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Information\n				Time zone – GMT+1 \nAvailability – TBC \nDuration – 3 x 1/2 days \nContact hours – Approx. 12 hours \nECT’s – Equal to 1 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				This course will be largely practical\, hands-on\, and workshop based. For each topic\, there will first be some lecture style presentation\, i.e.\, using slides or blackboard\, to introduce and explain key concepts and theories. Then\, we will cover how to perform the various statistical analyses using R. Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. For the breaks between sessions\, and between days\, optional exercises will be provided. Solutions to these exercises and brief discussions of them will take place after each break. \nThe course will take place online using Zoom. On each day\, the live video broadcasts will occur during UK local time at:• 10am-12pm• 1pm-3pm• 4pm-6pm \nAll sessions will be video recorded and made available to all attendees as soon as possible\, hopefully soon after each 2hr session. \nIf some sessions are not at a convenient time due to different time zones\, attendees are encouraged to join as many of the live broadcasts as possible. For example\, attendees from North America may be able to join the live sessions from 3pm-5pm and 6pm-8pm\, and then catch up with the 12pm-2pm recorded session once it is uploaded. By joining any live sessions that are possible will allow attendees to benefit from asking questions and having discussions\, rather than just watching prerecorded sessions. \nAt the start of the first day\, we will ensure that everyone is comfortable with how Zoom works\, and we’ll discuss the procedure for asking questions and raising comments. \nAlthough not strictly required\, using a large monitor or preferably even a second monitor will make the learning experience better\, as you will be able to see my RStudio and your own RStudio simultaneously. \nAll the sessions will be video recorded\, and made available immediately on a private video hosting website. Any materials\, such as slides\, data sets\, etc.\, will be shared via GitHub \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of statistical concepts. Specifically\, generalised linear regression models\, statistical significance\, hypothesis testing. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Familiarity with R. Ability to import/export data\, manipulate data frames\, fit basic statistical models & generate simple exploratory and diagnostic plots. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer).  \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n \n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited. \n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Tuesday 25th\n				Classes from 16:00 to 19:00 \nTopic 1: The general linear model. We begin by providing an overview of the normal\, as in normal distribution\, general linear model\, including using categorical predictor variables. Although this model is not the focus of the course\, it is the foundation on which generalized linear models are based and so must be understood to understand generalized linear models. \nTopic 2: Binary logistic regression. Our first generalized linear model is the binary logistic regression model\, for use when modelling binary outcome data. We will present the assumed theoretical model behind logistic regression\, implement it using R’s glm\, and then show how to interpret its results\, perform predictions\, and (nested) model comparisons. \nTopic 3: Binomial logistic regression. Here\, we show how the binary logistic regresion can be extended to deal with data on discrete proportions. We will also present alternative link functions to the logit\, such as the probit and complementary log-log links. \n			\n				\n				\n				\n				\n				Wednesday 26th\n				Classes from 16:00 to 19:00 \nTopic 4: Categorical logistic regression. Categorical logistic regression\, also known as multinomial logistic regression\, is for modelling polychotomous data\, i.e. data taking more than two categorically distinct values. Like ordinal logistic regression\, categorical logistic regression is also based on an extension of the binary logistic regression case. \nTopic 5: Poisson regression. Poisson regression is a widely used technique for modelling count data\, i.e.\, data where the variable denotes the number of times an event has occurred. \n			\n				\n				\n				\n				\n				Thursday 27th\n				Classes from 16:00 to 19:00 \nTopic 6: Overdispersion models. The quasi-likelihood approach for both the Poisson and binomial models. Negative binomial regression. The negative binomial model is\, like the Poisson regression model\, used for unbounded count data\, but it is less restrictive than Poisson regression\, specifically by dealing with overdispersed data. Beta-binomial regression. The beta-binomial model is an overdispersed alternative to the binomial. \nTopic 7: Zero inflated models. Zero inflated count data is where there are excessive numbers of zero counts that can be modelled using either a Poisson or negative binomial model. Zero inflated Poisson or negative binomial models are types of latent variable models. \n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Rafael De Andrade Moral \nRafael is an Associate Professor of Statistics at Maynooth University\, Ireland. With a background in Biology and a PhD in Statistics from the University of São Paulo\, Rafael has a deep passion for teaching and conducting research in statistical modelling applied to Ecology\, Wildlife Management\, Agriculture\, and Environmental Science. As director of the Theoretical and Statistical Ecology Group\, Rafael brings together a community of researchers who use mathematical and statistical tools to better understand the natural world. As an alternative teaching strategy\, Rafael has been producing music videos and parodies to promote Statistics in social media and in the classroom. His personal webpage can be found here \nResearchGateGoogleScholarORCIDGitHub \n​
URL:https://prstats.preprodw.com/course/introduction-to-generalised-linear-models-using-r-and-rstudio-iglm08/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/IGLM04R.png
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250211
DTEND;VALUE=DATE:20250214
DTSTAMP:20260419T022540
CREATED:20240613T125347Z
LAST-MODIFIED:20250205T170134Z
UID:10000452-1739232000-1739491199@prstats.preprodw.com
SUMMARY:ONLINE COURSE – Species Distribution Modelling With Bayesian Statistics Using R (SDMB06) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nTuesday\, February 11th\, 2025\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees\nthrough the accompanying computer practicals via video link\, so a good internet connection is\nessential. \nTime Zone\nLisbon (Portugal) time\, i.e. UTC / GMT or BST\, depending on time of year (daylight saving time\nfrom last Sunday of March to last Sunday of October). Check online for the time conversion\ncorresponding to the course dates. However\, all sessions will be recorded and made available\,\nallowing attendees from different time zones to follow asynchronously. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you).\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				This course focuses on the use of BART (Bayesian Additive Regression Trees) for modellingspecies’ geographical distributions based on occurrence data and environmental variables. BART is a relatively recent technique that shows very promising results in the field of species distribution and ecological niche modelling (SDM / ENM)\, as it produces accurate predictions (considering various aspects of model performance) without overfitting to noise or to special cases in the data. Additionally\, BART allows mapping the uncertainty and credible intervals associated to each local prediction. \nThe course includes a combination of theoretical lectures and hands-on practicals in R\, as well asopen discussions about models and data for SDM applications. The practicals go through acomplete worked example\, from data preparation to model output analysis\, with annotated Rscripts that can be adapted on-the-spot by participants to work on their own species of interest.Along the course\, the instructor is available for constant feedback and orientation on participants’; outputs and interpretations. \n			\n				\n				\n				\n				\n				Intended Audiences\n				The course is aimed at students\, researchers and practitioners with an interest in implementing\nbest practices and state-of-the-art methods for modelling species’ distributions or ecological\nniches\, in an automated and reproducible way.\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely\n			\n				\n				\n				\n				\n				Course Details\n				Availability – 18 places \nDuration – 3 days \nContact hours – Approx. 12 hours live\, plus remote assistance via Slack from the first day to the\nweekday after the course. \nECT’s – Equal to 1.5 ECT’s \nLanguage – English\n			\n				\n				\n				\n				\n				Teaching Format\n				This course runs along 3 days\, each with a 4-hour live online session. Each session is divided into4 parts\, alternating between theoretical lectures and hands-on practicals. Annotated scripts areprovided and instructor assistance is available\, both during the live sessions (on Zoom) andwhenever possible the rest of the day (on Slack)\, until the weekday after the course.Live sessions will be video-recorded\, uploaded to a video hosting website as soon as possible aftereach session\, and remain available for one month after the course. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				Participants should know what species distribution or ecological niche models (SDM / ENM) are\,\nand ideally have some previous experience with the basics. Previous knowledge of Bayesian\nstatistics is not required.\n			\n				\n				\n				\n				\n				Assumed computer background\n				Participants should have some previous experience with R\, including package installation and\nbasic data handling\, although commented scripts will be provided for the entire course.\n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nParticipants must use a computer with a good internet connection\, a working recent version or R (and ideally also RStudio)\, and recent versions of some R packages whose installation instructions will be sent a few days before the course. A working webcam is desirable for enhanced interactivity during the live sessions. Some computation power is required for modelling large datasets\, although the provided example data (and suggested subsets of participants’ data) can run on an ordinary laptop. \n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n \n \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Tuesday 11th\n				Classes from 14:00 – 18:00 \nDAY 1– Module 1a: Obtain and process data\, including species presences and environmental variables– Practical– Module 1b: Determine an adequate spatial resolution and extent for modelling– Practical \n			\n				\n				\n				\n				\n				Wednesday 12th\n				Classes from 14:00 – 18:00 CET \nDAY 2– Module 2a: Build a species distribution model with BART and obtain predictions of environmentalfavorability\, with credibility intervals and associated uncertainty– Practical– Module 2b: Evaluate and cross-validate the model\, assessing various aspects of predictive ability– Practical \n  \n			\n				\n				\n				\n				\n				Thursday 13th\n				Classes from 14:00 – 18:00 CET \nDAY 3 \n– Module 3a: Quantify variable contributions and try out different methods for selecting relevantvariables– Practical– Module 3b: Plot and map the species’ partial response to each variable– Practical \n			\n			\n				\n				\n				\n				\n				\n				\n					Dr. Marcia Barbosa\n					\n					Márcia is an experienced researcher and instructor in biogeography and macroecology\, particularly in geographic information systems and species distribution modelling. She’s also a reviewer and editor for scientific journals and funding agencies\, and a promoter and developer of free and open-source software implementing transparency\, reproducibility and best practices. You can see her publication list at her website or at Publons/ResearcherID\, Scopus\, ORCID\, Google Scholar\, or ResearchGate. \nResearch Gate\n Google Scholar\n ORCID\n GitHub\nHomepage
URL:https://prstats.preprodw.com/course/online-course-species-distribution-modelling-with-bayesian-statistics-using-r-sdmb06/
LOCATION:Delivered remotely (Portugal)\, Portugal
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/SDMB04.png
GEO:39.399872;-8.224454
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250210
DTEND;VALUE=DATE:20250215
DTSTAMP:20260419T022540
CREATED:20241114T114852Z
LAST-MODIFIED:20241114T144542Z
UID:10000467-1739145600-1739577599@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Machine Learning using Python (MLUP01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, February 10th\, 2025\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCourse Program\nTIME ZONE – Ireland local time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you.\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				This course comprehensively introduces Machine Learning\, covering theoretical foundations and practical applications. It focuses on crucial machine learning techniques such as supervised and unsupervised learning algorithms\, using Python and popular libraries like Scikit-learn\, TensorFlow\, and Keras. The course emphasises hands-on projects to apply learned concepts to real-world ecological problems. By the end of the course\, participants should: \n\nUnderstand fundamental concepts in machine learning\, including supervised and unsupervised learning.\nBe able to preprocess data for machine learning tasks.\nUnderstand key algorithms for regression\, classification\, clustering\, and dimensionality reduction.\nGain proficiency in building neural networks and deep learning models.\nBe familiar with model selection techniques and hyperparameter tuning.\nHave confidence in deploying machine learning models in production environments.\nBe able to apply machine learning techniques to solve real-world problems through hands-on projects.\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				\nAcademics and post-graduate students working on machine learning projects.\nData scientists and applied researchers in public or private sectors who need to implement machine learning solutions.\nProfessionals looking to integrate machine learning into their workflows or enhance their understanding of AI technologies.\nEcologists looking to understand the basic principles of Machine learning and implement them in their research.\n\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely\n			\n				\n				\n				\n				\n				Course Information\n				Time zone – Central Time Zone \nAvailability – TBC \nDuration – 5 days \nContact hours – Approx. 35 hours \nECT’s – Equal to 3 ECT’s \nLanguage – English\n			\n				\n				\n				\n				\n				Teaching Format\n				Introductory and Intermediate-level lectures interspersed with hands-on projects. The instructors will provide datasets\, but participants are welcome to bring their data. Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. \nAll sessions will be video recorded and made available to all attendees as soon as possible. If some sessions are not at a convenient time due to different time zones\, attendees are encouraged to join as many of the live broadcasts as possible. \nAt the start of the first day\, we will ensure that everyone is comfortable with how Zoom works\, and we’ll discuss the procedure for asking questions and raising comments. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of statistical and mathematical concepts\, such as linear algebra. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Day one will cover the basics of Python for the module. However\, some familiarity with any other programming language is welcome. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				A laptop computer with a working version of Python is required. Python is free and open-source software for PCs\, Macs\, and Linux computers.\nParticipants should be able to install additional software on their computers during the course (please ensure you have administration rights to your computer).\n\nAlthough not absolutely necessary\, a large monitor and a second screen could improve the learning experience. Participants are also encouraged to keep their webcams active to increase their interaction with the instructor and other students. \nhttps://www.python.org/downloads/\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 10th\n				Day 1: A Short Course in Python Basics (9:30 – 17:30) \nThis day provides participants with the foundational Python skills required for machine learning tasks. This day is designed for beginners or those needing a refresher in Python programming. \n\nSection 1 (Python Essentials for Machine Learning): This section focuses on Python syntax\, variables\, data types\, conditionals (`if`\, `else`\, `elif`)\, loops (`for`\, `while`)\, and writing reusable code using functions.\nSection 2 (Data Structures and File Handling in Python): Focuses on lists\, dictionaries\, tuples\, sets\, and reading/writing files (e.g.\, CSVs) for data manipulation.\n\n			\n				\n				\n				\n				\n				Tuesday 11th\n				Day 2: Fundamentals of Machine Learning (9:30 – 17:30) \nThis day focuses on the theoretical foundations of machine learning\, detailing the application of learning algorithms in preparation for the practical examples in Python. \n\nSection 3 (Introduction to Machine Learning): This section covers the definition of Machine learning\, types of Learning (Supervised\, Unsupervised\, Reinforcement\, Semi-Supervised)\, applications of Machine Learning and an overview of Python libraries for ML (NumPy\, scikit-learn)\nSection 4 (Fundamental learning algorithms): This section explores the available learning algorithms and focuses on their applications. We will also discuss the application of different algorithms with practical examples in Ecology.\n\n			\n				\n				\n				\n				\n				Wednesday 12th\n				Day 3: Statistical Learning Theory (9:30 – 17:30) \nThis day focuses on the theoretical foundations of Statistical Learning Theory (SLT) and illustrates their practical implications. \n\nSection 5 (Important Definitions on SLT): In this section\, we will explore the concept of Statistical Learning Theory and its implications for classification tasks in supervised learning settings\, highlighting its importance for machine learning practitioners.\nSection 6 (Practical implications of the SLT): This section provides a detailed explanation of the practical consequences of statistical learning theory based on Vapniks’ findings and using Support Vector Machines as a helpful example in Python\n\n			\n				\n				\n				\n				\n				Thursday 13th\n				Day 4: Classification boundaries and the power of Deep Neural networks (9:30 – 17:30) \nThis day introduces participants to the core libraries used in machine learning tasks. scikit-learn is used to implement machine learning algorithms\, and TensorFlow is used to build deep learning models. \n\nSection 7 (Classification with various learning algorithms): Offers a step-by-step guide to building learning algorithms using scikit-learn.\nSection 8 (Building Deep Learning Models with TensorFlow/Keras): Offers a step-by-step guide to building CNN models for image classification using TensorFlow/Keras.\n\n			\n				\n				\n				\n				\n				Friday 14th\n				Day 5: The Machine Learning Pipeline (9:30 – 17:30) \nParticipants will learn about the end-to-end workflow of a typical machine learning project using ecological datasets as an illustration. \nSection 9 (Preprocessing data and selecting algorithms): This section focuses on preprocessing techniques in OpenCV before feeding images into TensorFlow models for training. An entomological example illustrating the Machine Learning Pipeline will be used. \nSection 10 (The Complete Machine Learning Pipeline: From Classification to Evaluating Learning): Covers the end-to-end machine learning workflow\, including using the data preprocessed data and creating scikit-learn pipelines to automate critical aspects of the workflow. \n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Gabriel Palma \nGabriel R. Palma obtained a B.Sc. in Biology from the University of São Paulo\, Brazil in 2021. He is currently a PhD researcher at the Hamilton Institute at Maynooth University\, Ireland\, funded by the Science Foundation Ireland’s Centre for Research Training in Foundations of Data Science. His research interests include statistical and mathematical modelling\, machine vision\, machine learning\, and applications to ecology and entomology. His personal webpage can be found here \nResearchGateGoogleScholar \n  \n 
URL:https://prstats.preprodw.com/course/machine-learning-using-python-mlup01/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2024/11/Screenshot-2024-11-13-at-14.55.58.png
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250203
DTEND;VALUE=DATE:20250208
DTSTAMP:20260419T022540
CREATED:20241113T143355Z
LAST-MODIFIED:20241114T143930Z
UID:10000466-1738540800-1738972799@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Machine Vision using Python (MVUP01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, February 3rd\, 2025\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCourse Program\nTIME ZONE – Ireland local time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you. \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				Machine vision has produced many helpful image-processing techniques in several fields\, such as object detection\, classification\, and segmentation. Machine vision is an interdisciplinary discipline combining computer vision and machine learning methods\, mainly deep learning\, to solve vision problems. Common problems\, such as classification and localisation\, are typical examples that combine these research fields. These techniques have applications in many areas. Deep learning methods are commonly applied for image classification\, focusing on deep neural networks and Convolutional Neural Networks (CNNs)\, including concepts of transfer learning applied to image classification. This course introduces basic concepts of deep learning and machine vision applied to image classification using CNNs. To illustrate these methods\, a dataset of medically and forensically important flies is used. Other examples will also be used during the course to illustrate the applications of machine vision in ecology. \nBy the end of the course\, participants should: \n\nUnderstand the basic concepts behind the machine vision ecosystem in Python;\nUnderstand the machine vision pipeline workflow;\nUnderstand the application of standard Python packages such as OpenCV and Tensorflow;\nUnderstand the basic concepts behind Deep Neural Networks;\nUnderstand the basic concepts behind Convolutional Deep Neural Networks;\nUnderstand basic concepts behind Transfer learning;\nHave the confidence to implement basic Machine vision methods using Python;\nHave the confidence to combine basic computer vision and machine learning methods to perform vision tasks;\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				\nAcademics and post-graduate students working on projects related to machine vision\nApplied researchers and analysts in public\, private or third-sector organisations who need the reproducibility\, speed and flexibility of a programming language such as Python for machine vision;\nEcologists utilise Python to solve vision-related problems and look to update their knowledge in the machine vision area.\n\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Information\n				Time zone – Central Time Zone \nAvailability – TBC \nDuration – 5 days \nContact hours – Approx. 35 hours \nECT’s – Equal to 3 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				Introductory and Intermediate-level lectures interspersed with hands-on projects. The instructors will provide datasets\, but participants are welcome to bring their data. Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. \nAll sessions will be video recorded and made available to all attendees as soon as possible. If some sessions are not at a convenient time due to different time zones\, attendees are encouraged to join as many of the live broadcasts as possible. \nAt the start of the first day\, we will ensure that everyone is comfortable with how Zoom works\, and we’ll discuss the procedure for asking questions and raising comments. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of statistical and mathematical concepts. Also\, a basic understanding of supervised learning. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Day one will cover the basics of Python for the module. However\, some familiarity with any other programming language is welcome \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				A laptop computer with a working version of Python is required. Python is free and open-source software for PCs\, Macs\, and Linux computers.\nParticipants should be able to install additional software on their computers during the course (please ensure you have administration rights to your computer).\n\nAlthough not absolutely necessary\, a large monitor and a second screen could improve the learning experience. Participants are also encouraged to keep their webcams active to increase their interaction with the instructor and other students. \nhttps://www.python.org/downloads/\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 3rd\n				Day 1: A Short Course in Python Basics (9:30 – 17:30) \nThis day provides participants with the foundational Python skills required for machine vision tasks. This day is designed for beginners or those needing a refresher in Python programming. \n\nSection 1 (Python Essentials for Machine Vision): This section focuses on Python syntax\, variables\, data types\, conditionals (`if`\, `else`\, `elif`)\, loops (`for`\, `while`)\, and writing reusable code using functions.\nSection 2 (Data Structures and File Handling in Python): Focuses on lists\, dictionaries\, tuples\, sets\, and reading/writing files (e.g.\, CSVs) for data manipulation.\n\n			\n				\n				\n				\n				\n				Tuesday 4th\n				Day 2: Fundamentals of Computer Vision (9:30 – 17:30) \nThis day focuses on the theoretical foundations of computer vision\, detailing the main aspects. \n\nSection 3 (Introduction to Computer Vision and Image Processing): This section covers the fundamental structure of an image\, basic image handling techniques\, and an introduction to computer graphics.\nSection 4 (Local Image Descriptors and Feature Mapping): This section explores local image descriptors\, such as the Harris Corner Detector\, and techniques for image-to-image mapping.\n\n			\n				\n				\n				\n				\n				Wednesday 5th\n				Day 3: Fundamentals of Deep Learning (9:30 – 17:30) \nThis day focuses on the theoretical foundations of deep learning from Neural Networks to Convolutional Neural Networks (CNNs). \n\nSection 5 (Neural Networks: From Basics to Backpropagation): Introduces artificial neurons and explains how neural networks learn through backpropagation.\nSection 6 (Convolutional Neural Networks (CNNs) for Image Classification): Provides a detailed explanation of CNN architecture\, including convolution layers\, pooling layers\, and fully connected layers.\n\n			\n				\n				\n				\n				\n				Thursday 6th\n				Day 4: Understanding the Machine Vision Ecosystem in Python (OpenCV & TensorFlow) (9:30 – 17:30) \nThis day introduces participants to the core libraries used in machine vision tasks. OpenCV is used for image processing\, and TensorFlow is used for building deep learning models. \n\nSection 7 (Building Deep Learning Models with TensorFlow/Keras): Offers a step-by-step guide to building CNN models for image classification using TensorFlow/Keras.\nSection 8 (Image Processing with OpenCV: Filters\, Edge Detection & Contours): Covers basic image manipulation techniques using OpenCV\, including resizing\, cropping\, applying filters (blurring/sharpening)\, edge detection (Canny)\, and contour detection.\n\n			\n				\n				\n				\n				\n				Friday 7th\n				Day 5: The Machine Vision Pipeline (9:30 – 17:30) \nParticipants will learn about the end-to-end workflow of a typical machine vision project. \nSection 9 (Preprocessing Images for Deep Learning with OpenCV & TensorFlow): This section focuses on preprocessing techniques in OpenCV before feeding images into TensorFlow models for training. An entomological example illustrating the Machine Vision Pipeline will be used. \nSection 10 (The Complete Machine Vision Pipeline: From Image Capture to Classification): Covers the end-to-end machine vision workflow\, including image capture\, enhancement through preprocessing\, segmentation\, feature extraction\, and classification using machine learning classifiers. \n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Gabriel Palma \nGabriel R. Palma obtained a B.Sc. in Biology from the University of São Paulo\, Brazil in 2021. He is currently a PhD researcher at the Hamilton Institute at Maynooth University\, Ireland\, funded by the Science Foundation Ireland’s Centre for Research Training in Foundations of Data Science. His research interests include statistical and mathematical modelling\, machine vision\, machine learning\, and applications to ecology and entomology. His personal webpage can be found here \nResearchGateGoogleScholar \n 
URL:https://prstats.preprodw.com/course/machine-vision-using-python-mvup01/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2024/11/Screenshot-2024-11-13-at-12.47.27.png
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250127
DTEND;VALUE=DATE:20250206
DTSTAMP:20260419T022540
CREATED:20230726T154721Z
LAST-MODIFIED:20240926T112209Z
UID:10000433-1737936000-1738799999@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Time Series Analysis and Forecasting using R and Rstudio (TSAF01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, January 27th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCourse Program\nTIME ZONE – Central Time Zone – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you.\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				In this six-day course\, we provide a comprehensive practical and theoretical introduction to time series analysis and forecasting methods using R. Forecasting tools are useful in many areas\, such as finance\, meteorology\, ecology\, public policy\, and health. We start by introducing the concepts of time series and stationarity\, which will help us when studying ARIMA-type models. We will also cover autocorrelation functions and series decomposition methods. Then\, we will introduce benchmark forecasting methods\, namely the naïve (or random walk) method\, mean\, drift\, and seasonal naïve methods. After that\, we will present different exponential smoothing methods (simple\, Holt’s linear method\, and Holt-Winters seasonal method). We will then cover autoregressive integrated moving-average (or ARIMA) models\, with and without seasonality. We will also cover Generalized Additive Models (GAMs) and how they can be used to incorporate seasonality effects in the analysis of time series data. Finally\, we will cover Bayesian implementations of time series models and introduce extended models\, such as ARCH\, GARCH and stochastic volatility models\, as well as Brownian motion and Ornstein-Uhlenbeck processes. \n			\n				\n				\n				\n				\n				Intended Audiences\n				This course is aimed at anyone who is interested in forecasting methods\,and using R for data science or statistics. R is widely used in all areas ofacademic scientific research\, and also widely throughout the public\, andprivate sector. \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Information\n				Time zone – Central Time Zone \nAvailability – TBC \nDuration – 3 days \nContact hours – Approx. 14 hours \nECT’s – Equal to 1 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				This course will be largely practical\, hands-on\, and workshop based. For each topic\, there will first be some lecture style presentation\, i.e.\, using slides or blackboard\, to introduce and explain key concepts and theories. Then\, we will cover how to perform the various statistical analyses using R.Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. The course will take place online using Zoom. On each day\, the live video broadcasts will occur during UK local time at: 6pm-9pm \nAll sessions will be video recorded and made available to all attendees as soon as possible. If some sessions are not at a convenient time due to different time zones\, attendees are encouraged to join as many of the live broadcasts as possible. \nAt the start of the first day\, we will ensure that everyone is comfortable with how Zoom works\, and we’ll discuss the procedure for asking questions and raising comments. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of R and statistical concepts. Specifically\, linear regression models\, statistical significance\, and hypothesis testing. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Familiarity with R. Ability to import/export data\, manipulate data frames\, fit basic statistical models & generate simple exploratory and diagnostic plots. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer). \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 27th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDAY 1 \nSection 1: Introductory concepts in time series analysis. White noise\, stationarity\, autocovariance and autocorrelation. \nSection 2: Useful plots in time series analysis. Time plots\, seasonal plots\, autocorrelation plots. Time series decomposition: additive and multiplicative using the fable package in R. \n			\n				\n				\n				\n				\n				Tuesday 28th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDAY 2 \nSection 3: Time series decomposition: additive and multiplicative using the fable package in R. \nSection 4: Benchmark forecasting methods. The naïve\, mean\, drift\, and seasonal naïve methods. Cross-validation methods for time series analysis. \nTime series plots (Independant practical 1) please allow 3 hours to complete this before the next live session. This practical is not compulsory\, you can complete this after the course if you do not have time. \n			\n				\n				\n				\n				\n				Wednesday 29th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDAY 3 \nSection 4 (‘ctd) \nSection 5: Exponential smoothing. Simple exponential smoothing\, Holt’s linear method\, Holt-Winters seasonalmethod\, and fable’s general ETS method. \nTime series decomposition and benchmark forecasting methods (Independant practical 2) please allow 3 hours to complete this before the next live session. This practical is not compulsory\, you can complete this after the course if you do not have time. \n			\n				\n				\n				\n				\n				Monday 3rd\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDAY 4 \nSection 6: Autoregressive (AR) and moving-average (MA) models. Unit root tests for stationarity. How to identity the order of an AR(p) or an MA(q) model using autocorrelation and partial autocorrelation plots. \nSection 7: Autoregressive integrated moving average (ARIMA) models and seasonal ARIMA models. Automatic order selection for a (seasonal) ARIMA model using fable. Linear regression with ARIMA errors. \nExponential smoothing (Independant practical 3) please allow 3 hours to complete this before the next live session. This practical is not compulsory\, you can complete this after the course if you do not have time. \n			\n				\n				\n				\n				\n				Tuesday 4th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDAY 5 \nSection 8: Generalized Additive Models (GAMs). An introduction to semi-parametric regression using splines. Incorporating trends and seasonal components of a time series using a GAM. \nSection 9: An introduction to Bayesian modelling. Implementation of random walks\, autoregressive\, and moving average models using JAGS. \nARIMA models (Independant practical 4) please allow 3 hours to complete this before the next live session. This practical is not compulsory\, you can complete this after the course if you do not have time. \n			\n				\n				\n				\n				\n				Wednesday 5th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDAY 6 \nSection 10: Modelling the variance as a time series process. Autoregressive conditional heteroskedasticity (ARCH) and generalized ARCH (GARCH) models. Stochastic volatility models. \nSection 11: Continuous time models. Brownian motion and Ornstein-Uhlenbeck processes. Fitting continuous time series models using JAGS. \nSection 12: Multivariate time series. Vector autoregression. Simple examples using JAGS. \nGAMs and Bayesian models (Independant practical 5) please allow 3 hours to complete this before the next live session. This practical is not compulsory\, you can complete this after the course if you do not have time. \n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Rafael De Andrade Moral \nRafael is an Associate Professor of Statistics at Maynooth University\, Ireland. With a background in Biology and a PhD in Statistics from the University of São Paulo\, Rafael has a deep passion for teaching and conducting research in statistical modelling applied to Ecology\, Wildlife Management\, Agriculture\, and Environmental Science. As director of the Theoretical and Statistical Ecology Group\, Rafael brings together a community of researchers who use mathematical and statistical tools to better understand the natural world. As an alternative teaching strategy\, Rafael has been producing music videos and parodies to promote Statistics in social media and in the classroom. His personal webpage can be found here \nResearchGateGoogleScholarORCIDGitHub \n 
URL:https://prstats.preprodw.com/course/time-series-analysis-and-forecasting-using-r-and-rstudio-tsaf01/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/jpeg:https://prstats.preprodw.com/wp-content/uploads/2022/02/MDAR-scaled.jpg
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20250120
DTEND;VALUE=DATE:20250125
DTSTAMP:20260419T022540
CREATED:20240402T165424Z
LAST-MODIFIED:20241216T141211Z
UID:10000453-1737331200-1737763199@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Using Google Earth Engine in Ecological Studies (GEEE01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, January 20th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTime Zone\nTIME ZONE – Western European Time (Portugal local time) – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you). \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				Google Earth Engine (GEE) is a cloud computing platform for processing satellite imagery and other geospatial and observational data. GEE is currently the most complete and efficient platform for performing remote sensing analysis\, as it provides access to a large database of satellite imagery and the computational power needed to analyse these images. While other remote sensing programs require the user to have sufficient space and computing power available\, all data and processes in GEE are done in the cloud through Google's infrastructure. GEE provides a code editor that works with JavaScript and Python. GEE is the future of remote sensing. \nBy the end of the course\, participants should: Know the catalogue of spatial datasets provided by GEE. Know the most important satellite sensors for environmental studies in GEE. Know how to get remote sensing products from GEE. Process and develop new remote sensing (sub-)products in GEE. Classify satellite imagery in GEE. Perform different types of spatial analyses in satellite imagery in GEE. \n			\n				\n				\n				\n				\n				Intended Audiences\n				The target audience for this training is students\, researchers\, technicians\, teachers\, or otherprofessionals who work in the areas of remote sensing\, environment\, geo-informatics\, geomatics\,geospatial engineering\, biology\, ecology\, and biogeography. \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Details\n				Time Zone – Western European Time \nAvailability – 25 Places \nDuration – 5 days \nContact hours – Approx. 35 hours \nECT’s – Equal to 3 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				The topics will be presented and discussed in the theoretical classes to stimulate the interest of theparticipants and to provide the set of knowledge considered necessary and relevant for a completeunderstanding of the Google Earth Engine platform. In the practical classes\, participants are invitedto think about and solve a set of problems to consolidate the knowledge acquired in the theoreticallectures. The practical work proposed on the computer aims to train students in solving a set oftypical remote sensing problems related to the topics of the course program. The objective is forparticipants to obtain the necessary tools that will allow them to use Google Earth Engine and todeepen their knowledge autonomously. No data will be provided to the participants because all thenecessary data are stored in GEE. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				Solid knowledge of Geographical Information Systems and Remote Sensing is necessary. This course will suppose the attendees to know how to analyse remote sensing data. \n			\n				\n				\n				\n				\n				Assumed computer background\n				No programming experience in JavaScript or Python will be necessary\, although having programming knowledge will be extremely useful. However\, this is not a course on programming. We will not teach JavaScript or Python but provide the necessary scripts to run analyses in GEE. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				A laptop/personal computer\, a list of software you need to install will be sent the week before the course starts. \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 20th\n				Classes from 13:00 to 18:00 \n Introduction to Google Earth Engine:o Understand the fundamentals of how Google Earth Engine operateso Visualize geospatial information in GEEo Know the catalogue of the most important satellite images in the environmental areao Build the first scripts in GEE and how to run themo GEE related platforms \n			\n				\n				\n				\n				\n				Tuesday 21st\n				Classes from 13:00 to 18:00 \n Introduction to remote sensing products and analyses in Google Earth Engine:o Select\, visualize and access the metadata of satellite image data series (e.g.\, MODIS\, Landsat\, Sentinel)o Filter the data by spatial and temporal extentso Aggregate data over time\, space and bands using reducer functionso Build image composites and mosaicso Conduct cloud masking operationso Geospatial computations and operations (e.g.\, obtain terrain products from DEMs and calculate spectral indexes)o Import spatial data as Assets \n			\n				\n				\n				\n				\n				Wednesday 22nd\n				Classes from 13:00 to 18:00 \n Process\, classify and analyse multispectral images:o Quality assessment of satellite imageso Learn the image classification algorithms available in GEEo Perform unsupervised classificationso Photo-interpretation of satellite images and build datasets of training areas (regions of interest)o Conduct spectral separability analyseso Perform supervised classificationso Evaluate final image classificationso Export outputs to Google Drive \n			\n				\n				\n				\n				\n				Thursday 23rd\n				Classes from 13:00 to 18:00 \n Analyse time-series data and the temporal evolution of vegetation productivity and land useo Calculate spectral indiceso Analyse available and ready-to-use products of vegetation productivity proxies andLULC mapso Build and export time-series plots (e.g.\, seasonality plots\, anomaly analysis)o Conduct non-parametric trend analyses using time-series datao Time series modelling using linear regressionso Export outputs to Google Drive \n  \n			\n				\n				\n				\n				\n				Friday 24th\n				Classes from 13:00 to 18:00 \n Learn advanced spatial modelling tools:o Import species databases into GEE (vector data or tabular databases) as assetso Search and import environmental variables for modelling procedureso Correlation analyses of environmental variableso Search information about modelling algorithms and classifiers available in GEEo Visualize and calibrate ecological niche models (e.g. Maxent)o Conduct modelling analyses and assess the predictive performance of the modelso Visualize model projections in GEEo Export model outputs to Google Drive \n			\n			\n				\n				\n				\n				\n				\n				\n					Dr. Neftali Sillero\n					\n					Neftalí Sillero works in the analysis and identification of biodiversity spatial patterns\, from species to populations and individuals. For this\, he uses four powerful tools to better understand how space influence biodiversity: Geographical Information Systems\, Remote Sensing\, Ecological Niche Modelling\, and Spatial Statistics. His main areas of research are: application of new technologies on species’ distributions atlases\, ecological modelling of species’ ranges\, identification of biogeographical regions and species’ chorotypes\, mapping and modelling road-kill hotspots\, and spatial analyses of home ranges. \nHe has more than 10 years’ experience working in ecological niche models. He has authored >70 peer reviewed publications and he is since 2007 Chairman of the Mapping Committee of the Societas Herpetologica Europaea\, where he is the PI of the NA2RE project (www.na2re.ismai.pt)\, the New Atlas of Amphibians and Reptiles of Europe \nPersonal website\nWork Webpage\nResearchGate\nGoogleScholar\n					\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Teaches\n				\nEcological Niche Modelling Using R (ENMR)\nAdvanced Ecological Niche Modelling Using R (ANMR)\nGIS And Remote Sensing Analyses With R (GARM)\n\n			\n				\n				\n				\n				\n				Teaches\n				\nEcological Niche Modelling Using R (ENMR)\nAdvanced Ecological Niche Modelling Using R (ANMR)\nGIS And Remote Sensing Analyses With R (GARM)\n\n			\n			\n				\n				\n				\n				\n				\n				\n					Dr. Salvador Arenas-Castro\n					\n					Dr. Salvador Arenas-Castro is a broad-spectrum ecologist with interesting in differentintegrative perspective of the fundamental ecology\, macroecology and biogeographywith their both application and relationship to climate and land management. He is alsoexploring other research sources in agroecology\, forestry\, spatial ecology\, andecoinformatics\, all addressed by explicitly considering the spatial component ofecological processes\, mainly applying spatially explicit modelling approaches\, GIS andremote sensing techniques. Please check his webpage for further information:https://salvadorarenascastro.wordpress.com \nGoogle Scholar: https://scholar.google.com/citations?user=UAYiB5UAAAAJ&hl=es&oi=aoResearchGate: https://www.researchgate.net/profile/Salvador-Arenas-Castro
URL:https://prstats.preprodw.com/course/using-google-earth-engine-in-ecological-studies-geee01/
LOCATION:Delivered remotely (Portugal)\, Portugal
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2024/04/Screenshot-2024-04-02-at-17.51.29.png
GEO:39.399872;-8.224454
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20241202
DTEND;VALUE=DATE:20241205
DTSTAMP:20260419T022540
CREATED:20240404T125828Z
LAST-MODIFIED:20241128T122417Z
UID:10000456-1733097600-1733356799@prstats.preprodw.com
SUMMARY:ONLINE COURSE – Introduction to Single Cell Analysis (ISCA01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, December 2nd\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE FORMAT\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTIME ZONE\nTIME ZONE – Central Standard Time – however all sessions will be recorded and made available allowing attendees from different time zones to follow.\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				Take your RNA-Seq analysis to the next level with single cell RNA-Seq. This technology allows insights with an unpredicted level of detail\, but that brings a new level of complexity to the data analysis. In this course\, we will learn about the most popular single cell platforms\, how to plan a scRNA-Seq experiment\, deal with some of the many pitfalls when analysing your data\, and effectively gain exciting\, and cell type specific biological insights \nBy the end of the course participants should: \n\nUnderstand the basic principles of popular single cell platforms and the pros and cons of the different technologies.\nBe able run standard software to process raw 10x Genomics and Parse Bioscience data and interpret the outputs\nUnderstand how to use the ‘Trailmaker’ to quickly analyse scRNA-Seq data.\nUnderstand the basics of the R Bioconductor ‘Seurat’ package\, and how to combine it with other tools.\nUnderstand how to perform appropriate data quality control and filtering.\nUnderstand how to cluster cells both within and between samples\, and identify possible cell types of individual cells and clusters\nUnderstand how to use statistically robust methods to compare gene expression between sample to identify cell type specific changes in gene expression and potential pathways of interest.\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				Academics\, post-graduate students or biotech employees working on\, or planning to work on any type of single cell RNA-Seq data. \n			\n				\n				\n				\n				\n				Venue\n				Delivered Remotely \n			\n				\n				\n				\n				\n				Course Details\n				Availability – 20 \nDuration – 2 days \nContact hours – Approx. 12 hours \nECT’s – Equal to 1 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				Mixture of lectures covering the theory\, and practical sessions using the Linux command line and RStudio. Practical sessions are a mixture of demonstrations by the tutor and exercises to be completed independently. Data sets for computer practical sessions will be provided by the instructors\, but participants are welcome to bring their own data. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				Participants should have a basic understanding of transcriptomics and molecular biology \n			\n				\n				\n				\n				\n				Assumed computer background\n				COMING SOON…\n			\n				\n				\n				\n				\n				Equipment and software requirements\n				Participants should have basic experience of R\, RStudio and linux. \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\nPLEASE READ – CANCELLATION POLICY \n\n\nCancellations/refunds are accepted as long as the course materials have not been accessed\,. \n\n\nThere is a 20% cancellation fee to cover administration and possible bank fess. \n\n\nIf you need to discuss cancelling please contact oliverhooker@prstatistics.com. \n\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n\nDay 1 Classes from 9:30 – 3:30 \n\nBasic principles of popular single cell platforms and the pros and cons of the different technologies.\nImportant considerations when planning a scRNA-Seq experiment.\nRunning standard software to process raw 10x Genomics and Parse Bioscience data and interpretate outputs to perform an initial assessment of data quality.\nSample and library preparation issues that may affect your data\, and how these issues may be detected\nUse of the ‘Trailmaker’ tool to perform further analysis without the need for programming skills.\n\n\nDay 2 Classes from 9:30 – 3:30 \n\nUnderstand the basics of the R Bioconductor ‘Seurat’ package\, and how to combine it with other tools.\nNormalise data and cluster cells.\nPredict cell types of individual cells.\nClean and filter your data in a manner appropriate for your particular sample and tissue type.\n\n\nDay 3 Classes from 9:30 – 3:30 \n\nIntegration of and co-clustering of cells from multiple samples.\nIdentification of cell type marker genes and annotation of clusters.\nUse of statistically robust methods to compare gene expression between samples.\nIdentification cell type specific changes in gene expression and potential pathways of interest.\nDiscussion of participants individual projects (optional).\n\n\n			\n				\n				\n				\n				\n				Course Instructor\n \nEDINBURGH GENOMICS \n			\n				\n				\n				\n				\n				\n				\n					Frances Turner\n					\n					Through my work as a bioinformatician at Edinburgh Genomics\, I have many years experience of working with researchers from all areas of life sciences to help them get the most out of their high throughput sequencing data.\n					\n				\n			\n				\n				\n				\n				\n				read more\n				This work ranges from bespoke data analysis and one-to-one training\, to running popular courses covering a range of applications. My particular focus is on RNA-Seq\, especially the exciting opportunities offered by long read and single-cell transcriptomics. \n			\n				\n				\n				\n				\n				\n				\n					Heleen De Weerd\n					\n					Heleen de Weerd has been a bioinformatician since 2010\, accumulating experience in both industry and academia and working with people from different backgrounds. \n					\n				\n			\n				\n				\n				\n				\n				read more\n				Her expertise spans a wide array of topics with a special interest in genomic and the analysis of highly diverse samples. Since joining Edinburgh Genomics\, Heleen has focused on advancements in both short and long reads technologies and application of both to different research questions. She is passionate about sharing her experiences and helping people start their journeys with their data.\n			\n				\n				\n				\n				\n				\n				\n					Dr Kathryn Campbell\n					\n					Kathryn recently joined the Edinburgh Genomics team as the Genomics and Bioinformatics Training Coordinator. With a diverse background in bioinformatics and molecular biology\, she specializes in phylogenetics and viral classification. \n					\n				\n			\n				\n				\n				\n				\n				read more\n				Her passion now lies in teaching and outreach\, where she brings extensive experience\, engaging with a broad range of audiences. Kathryn is dedicated to empowering learners through comprehensive training\, from sample preparation and sequencing to data analysis and interpretation. She is also committed to inspiring the next generation of biologists by working with primary and secondary schools to foster a love for science and genomics.
URL:https://prstats.preprodw.com/course/introduction-to-single-cell-analysis-isca01/
LOCATION:Delivered remotely (Portugal)\, Portugal
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/jpeg:https://prstats.preprodw.com/wp-content/uploads/2024/04/single_cell_1.jpeg
GEO:39.399872;-8.224454
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20241112
DTEND;VALUE=DATE:20241122
DTSTAMP:20260419T022540
CREATED:20230726T162340Z
LAST-MODIFIED:20241114T125839Z
UID:10000434-1731369600-1732233599@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Introduction to Machine Learning using R and Rstudio (IMLR03) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nTuesday\, November 12th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCourse Program\nTIME ZONE – Central Time Zone – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you.\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				In this six-day course\, we provide a comprehensive practical and theoretical introduction to statistical machine learning using R. We start by introducing the concepts of supervised and unsupervised learning. We firstly explore unsupervised learning\, and introduce k-means andhierarchical clustering\, as well as principal components analysis. We then move to supervised learning methods\, and cover logistic regression and regularisation methods (such as ridge regression and the LASSO). After that\, we introduce the k-nearest neighbours method\, and classification and regression trees (CART). Finally\, we explore extensions to CART\, such as random forests and\, if time allows\, Bayesian additive regression trees (BART). \n			\n				\n				\n				\n				\n				Intended Audiences\n				This course is aimed at anyone who is interested in statistical machine learning methods for clustering\, classification or prediction\, and using R for data science or statistics. R is widely used in all areas of academic scientific research\, and also widely throughout the public\, and private sector. \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Information\n				Time zone – Central Time Zone \nAvailability – TBC \nDuration – 3 days \nContact hours – Approx. 24 hours \nECT’s – Equal to 2 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				This course will be largely practical\, hands-on\, and workshop based. For each topic\, there will first be some lecture style presentation\, i.e.\, using slides or blackboard\, to introduce and explain key concepts and theories. Then\, we will cover how to perform the various statistical analyses using R.Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. The course will take place online using Zoom. On each day\, the live video broadcasts will occur during UK local time at: 6pm-9pm \nAll sessions will be video recorded and made available to all attendees as soon as possible. If some sessions are not at a convenient time due to different time zones\, attendees are encouraged to join as many of the live broadcasts as possible. \nAt the start of the first day\, we will ensure that everyone is comfortable with how Zoom works\, and we’ll discuss the procedure for asking questions and raising comments. \n			\n				\n				\n				\n				\n				Teaching Format\n				This course will be largely practical\, hands-on\, and workshop based. For each topic\, there will first be some lecture style presentation\, i.e.\, using slides or blackboard\, to introduce and explain key concepts and theories. Then\, we will cover how to perform the various statistical analyses using R.Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. The course will take place online using Zoom. On each day\, the live video broadcasts will occur during UK local time at: 6pm-9pm \nAll sessions will be video recorded and made available to all attendees as soon as possible. If some sessions are not at a convenient time due to different time zones\, attendees are encouraged to join as many of the live broadcasts as possible. \nAt the start of the first day\, we will ensure that everyone is comfortable with how Zoom works\, and we’ll discuss the procedure for asking questions and raising comments. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of R and statistical concepts. Specifically\, linear regression models\, statistical significance\, and hypothesis testing. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Familiarity with R. Ability to import/export data\, manipulate data frames\, fit basic statistical models & generate simple exploratory and diagnostic plots. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer). \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Tuesday 12th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDay 1 \nSection 1: Introductory concepts in statistical machine learning. Unsupervised vs. supervised learning. Useful plots in classification and clustering tasks. \nSection 2: Unsupervised learning methods: hierarchical clustering and the k-means method. \n			\n				\n				\n				\n				\n				Wednesday 13th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDay 2 \nSection 3: Dimension reduction techniques and principal components analysis. \nSection 4: Regression and classification tasks. Supervised learning methods: linear and logistic regression. \n			\n				\n				\n				\n				\n				Thursday 14th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDAY 3 \nSection 5: Tree-based methods. Classification and regression trees (CART)\, random forests. \nSection 6: Extensions to tree-based methods. Bayesian additive regression trees (BART). Combining tree-based methods with a parametric regression framework. \n			\n				\n				\n				\n				\n				Tuesday 19th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDay 4 \nSection 7: Generalized additive models and cross-validation techniques. \n			\n				\n				\n				\n				\n				Wednesday 20th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDay 5 \nSection 8: Tree-based methods. Classification and regression trees (CART)\, random forests. \nSection 9: Extensions to tree-based methods. Bayesian additive regression trees (BART). Boruta. \n			\n				\n				\n				\n				\n				Thursday 25th\n				Classes from 12:00 to 16:00 (Central Time Zone) \nDay 6 \nSection 10: Neural networks. Fitting feedforward neural networks and multilayer perceptron using R. Selecting the number of neurons based on cross-validation and information criteria. Neural networks as statistical models. \nSection 11: Generalized additive models for location\, scale\, and shape (GAMLSS). Combining regression trees and neural networks within the GAMLSS regression framework. \n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Rafael De Andrade Moral \nRafael is an Associate Professor of Statistics at Maynooth University\, Ireland. With a background in Biology and a PhD in Statistics from the University of São Paulo\, Rafael has a deep passion for teaching and conducting research in statistical modelling applied to Ecology\, Wildlife Management\, Agriculture\, and Environmental Science. As director of the Theoretical and Statistical Ecology Group\, Rafael brings together a community of researchers who use mathematical and statistical tools to better understand the natural world. As an alternative teaching strategy\, Rafael has been producing music videos and parodies to promote Statistics in social media and in the classroom. His personal webpage can be found here \nResearchGateGoogleScholarORCIDGitHub
URL:https://prstats.preprodw.com/course/introduction-to-machine-learning-using-r-and-rstudio-imlr03/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2023/07/Screenshot-2023-07-26-at-17.21.46.png
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20241104
DTEND;VALUE=DATE:20241107
DTSTAMP:20260419T022541
CREATED:20240404T120253Z
LAST-MODIFIED:20241015T150726Z
UID:10000455-1730678400-1730937599@prstats.preprodw.com
SUMMARY:ONLINE COURSE – Genome Assembly and Annotation (GAAA01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, November 4th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE FORMAT\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTIME ZONE\nTIME ZONE – UK local time (GMT) – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				Genome assembly is the process of piecing together fragments of DNA to recontruct the original genome. The genome provides crucial information for understanding genetic structure\, function and variation. \nIn recent years\, long-read sequencing technologies have revolutionized genome assembly. These long reads can span repetitive sequences and structural variations making genome assembly simpler but also reducing gaps and fragments in the genome\, resolve repeats\, help with the detection of structural variation as well as improved haplotype phasing. \nDuring this course we will look at data generated using PacBio and Oxford Nanopore\, discuss the pros and cons of both sequencing technologies and the effect they might have on genome assembly. During the course we will look at different tools available to generate assemblies\, focussing on de novo genome assembly. Polishing using short or long reads and the introduction of Hi-C sequencing can increase completeness of the genomes. At the difference steps during the assembly process we will look at the contiguity\, completeness and correctness of the generated genomes\, thereby evaluation the status of the genome. \nOnce a genome has been assembled the next step is annotation. Genome annotation involves identifying and mapping locations of genes and other functional elements within the sequenced genome. We will take a look at the differences between prokaryote and eukaryote genomes and the tools available for annotation. We will talk about steps to improve annotation once the automatic annotation has been made. \nBy the end of the course\, participants should: \n\nKnow the difference between Nanopore and PacBio data\nBe able to assembly genomes\nBe able to assess the generated genomes\nAssemble genomes integrating Hi-C data\nKnow how to annotated a genome\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				Academics and post-graduate students working on projects related to spatial data and applied researchers and analysts in public\, private or third-sector organizations who need the reproducibility\, speed and flexibility of a command-line language \n			\n				\n				\n				\n				\n				Venue\n				Delivered Remotely\n			\n				\n				\n				\n				\n				Course Details\n				Availability – 22 \nDuration – 3 days \nContact hours – Approx. 16 hours \nECT’s – Equal to 2 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				Intermediate-level lectures interspersed with hands-on mini practicals. Access to Linux VM and data sets for practicals will be provided by the instructors. Time will be available during the course for participants to ask questions regarding their own projects. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				Good familiarity of genomics studies. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Good familiarity with Linux will be helpful. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				COMING SOON… \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\nPLEASE READ – CANCELLATION POLICY \n\n\nCancellations/refunds are accepted as long as the course materials have not been accessed\,. \n\n\nThere is a 20% cancellation fee to cover administration and possible bank fess. \n\n\nIf you need to discuss cancelling please contact oliverhooker@prstatistics.com. \n\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n\nDay 1 Classes from 10:00 – 15:30Data QC and preprocessing and genome assembly• Data QC and preprocessing using Nanopack• Genome assembly using Redbean\, Shasta\, Canu• PacBio assembly using hifiasm• Genome evaluation \nDay 2 Classes from 10:00 – 15:30Genome polishing and introduction into Hi-C• Polishing created genomes using Racon• Assembly using Hi-C data \nDay 3 Classes from 10:00 – 15:30Genome annotation• Genome annotation using Prokka• Look at genome annotation using AUGUSTUS/BRAKER \n\n			\n				\n				\n				\n				\n				\n				\n					Heleen De Weerd\n					\n					Heleen de Weerd has been a bioinformatician since 2010\, accumulating experience in both industry and academia and working with people from different backgrounds. \n					\n				\n			\n				\n				\n				\n				\n				read more\n				Her expertise spans a wide array of topics with a special interest in genomic and the analysis of highly diverse samples. Since joining Edinburgh Genomics\, Heleen has focused on advancements in both short and long reads technologies and application of both to different research questions. She is passionate about sharing her experiences and helping people start their journeys with their data.\n			\n				\n				\n				\n				\n				\n				\n					Urmi Trivedi \n					\n					Urmi has been working as a Bioinformatician in research support role at Edinburgh Genomics\, a sequencing facility within The University of Edinburgh\, since 16 years. \n					\n				\n			\n				\n				\n				\n				\n				read more\n				She is now leading the Bioinformatics team for almost three years\, overseeing a group of experts who are integral to the success of over 100 projects annually.The facility\, equipped with cutting-edge sequencing platforms\, is at the forefront of genomic research\, and Urmi’s team plays a critical role in ensuring the highest standards of data quality and analysis\, both for in-house and external projects. Urmi is also a passionate educator\, actively involved in designing and delivering training programs that empower the next generation of bioinformaticians.  Her area of expertise is Genome assembly\, Genome annotation\, Metagenomics and metabarcoding. \n			\n				\n				\n				\n				\n				\n				\n					Dr Kathryn Campbell\n					\n					Kathryn recently joined the Edinburgh Genomics team as the Genomics and Bioinformatics Training Coordinator. With a diverse background in bioinformatics and molecular biology\, she specializes in phylogenetics and viral classification. \n					\n				\n			\n				\n				\n				\n				\n				read more\n				Her passion now lies in teaching and outreach\, where she brings extensive experience\, engaging with a broad range of audiences. Kathryn is dedicated to empowering learners through comprehensive training\, from sample preparation and sequencing to data analysis and interpretation. She is also committed to inspiring the next generation of biologists by working with primary and secondary schools to foster a love for science and genomics.
URL:https://prstats.preprodw.com/course/genome-assembly-and-annotation-gaaa01/
LOCATION:Delivered remotely (Portugal)\, Portugal
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/jpeg:https://prstats.preprodw.com/wp-content/uploads/2024/04/national-cancer-institute-JaoGCqzPgI0-unsplash.jpg
GEO:39.399872;-8.224454
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20241021
DTEND;VALUE=DATE:20241026
DTSTAMP:20260419T022541
CREATED:20231204T135919Z
LAST-MODIFIED:20240514T140336Z
UID:10000442-1729468800-1729900799@prstats.preprodw.com
SUMMARY:ONLINE COURSE – Metabarcoding Pipelines for Eukariotic Communities (MPEC01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, 21st October\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE FORMAT\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTIME ZONE\nTIME ZONE – `Central European Standard Time (CET) – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you. \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				Metabarcoding has emerged as a pivotal technique\, rapidly expanding and revolutionizing the way we study biodiversity. From soil samples to aquatic environments\, metabarcoding provides insights into the diverse array of organisms present\, offering crucial information for conservation efforts and ecological research. However\, metabarcoding encounters intrinsic biases inherent in its methodology. Metabarcoding pipelines are designed to mitigate these biases\, and this course will offer insights into optimizing these pipelines for accurate and reliable results. With new techniques continuously evolving\, we’ll explore methodologies geared towards unraveling both inter and intra-species diversity while addressing the common challenges encountered in a methodology. Additionally\, we’ll navigate the landscape of methods enabling comprehensive biodiversity assessments\, alongside showcasing new machine learning approaches for inferring ecological quality status. This course will focus on the MJOLNIR3 pipeline and its theoretical framework. This R package is based on eight simple functions divided into four different blocks. For each function\, a comprehensive description of the process will be provided\, including alternatives from other pipelines and their basic command line usage. \n\nBy the end of the course\, participants will: \n\nGain a comprehensive understanding of the theoretical foundations underpinning metabarcoding pipelines.\nDevelop the ability to identify potential biases and effectively apply specialized software to mitigate them.\nAcquire proficiency in working across three distinct levels of coding requirements\, encompassing command-line operations and graphical user interface packages.\nDemonstrate a thorough comprehension of basic biodiversity analysis techniques\, spanning inter and intra-species levels.\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				\nAcademics and post-graduate students engaged in projects associated with DNA metabarcoding.\nApplied researchers and environmental managers seeking to implement DNA metabarcoding for ecosystem monitoring purposes.\nDNA metabarcoding specialists with expertise in Prokaryotic analysis\, seeking to comprehend the specific requisites essential for managing Eukaryotic data.\n\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Details\n				Availability – 30 places \nDuration – 5 days \nContact hours – Approx. 35 hours \nECT’s – Equal to 3 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				Introductory lectures on the concepts and refreshers on R usage and linux command line. Intermediate-level lectures interspersed with hands-on mini practicals. Data sets for computer practicals will be provided by the instructors\, but participants are welcome to bring their own data. Keep in mind that huge datasets can take hours of running time and subsets are recommended. Hands on will try to focus on the different format files to allow students to create their own pipelines. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of laboratory process. Basic knowledge of biodiversity analysis. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Basic familiarity with R and linux command line. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nParticipants must use a computer with a good internet connection\, a working recent version or R (and ideally also RStudio)\, and recent versions of some R packages whose installation instructions will be sent a few days before the course. A working webcam is desirable for enhanced interactivity during the live sessions. Some computation power is required for modelling large datasets\, although the provided example data (and suggested subsets of participants’ data) can run on an ordinary laptop. \n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n \n  \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n \n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited. \n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 21st\n				 Classes from 09:30 – 17:30 (CET) \nDAY 1 \n– What is DNA metabarcoding and how to apply it to my research.– Basic metabarcoding terminology \n– Differences between sampling methods– Differences between different target organisms. Universal and specific primers: their pros and limitations. \n– COI and other markers. \n– Identifying the different biases in laboratory processes. PCR\, sequencing\, contaminations\, quimeras… \n– How to manage increasing data volumes. \n– Designing a Bias-Handling Strategy. Divide the pipeline in 4 stages: \n1- Demultiplexing and initial filters \n2- Units delimitation. From Denoising to clustering methods. \n3- Taxonomic assignment \n4- Final filtering steps \n– Industrial assembly lines and Nordic mithology as a metaphores for Metabarcoding pipeline \n– Get familiar with basic bash commands and R scripts. \n			\n				\n				\n				\n				\n				Tuesday 22nd\n				Classes from 09:30 – 17:30 (CET) \nDAY 2 \n– Presenting MJOLNIR3 pipeline\, an R package to easy process metabarcoding data.Getting started with MJOLNIR3 pipeline \n– Understand the theory behind \n– Presentation and installation of the required software; conda\, obitools3\, cutadapt\, vsearch\, DnoisE\, SWARM\, lulu and dada2. \n– Demultiplexing\, initial filtering steps\, sequence quality\, pairing and dereplication and quimera detection. \n– Meet the gods RAN\, FREYJA and HELA. \n– Practical \n			\n				\n				\n				\n				\n				Wednesday 23rd\n				Classes from 09:30 – 17:30 (CET) \nDay 3 \n– Alternatives to RAN\, FREYJA and HELA \n– The dada2 approach. \n– To denoise or to cluster. \n– Choosing the strategy. \n – Meet the god ODIN. \n– Practical \n– Alternatives to ODIN \n  \n			\n				\n				\n				\n				\n				Thursday 24th\n				 Classes from 09:30 – 17:30 \nDay 4 \n– Alternatives to RAN\, FREYJA and HELA \n– The dada2 approach. \n– To denoise or to cluster. \n– Choosing the strategy. \n– Meet the god ODIN. \n– Hands on \n– Alternatives to ODIN \n			\n				\n				\n				\n				\n				Friday 25th\n				Classes from 09:30 – 17:30 \nDay 5 \n– Taxonomic assignment \n– Know the different reference databases \n– Meet the god THOR \n– ecotag\, vsearch and other software \n– Practical \n– Alternatives to THOR \n– Final filtering steps \n– Meet the gods FRIGGA\, LOKI and face the final battle at the RAGNAROC \n– Practical \n– Understand the three levels of metabarcoding pipelines. How we go from command line and MJOLNIR3 package to the graphical user interfaces with SLIM as example \n			\n			\n				\n				\n				\n				\n				\n				\n					Dr. Adrià Antich\n					\n					Coming soon… \nResearch Gate Google Scholar ORCID GitHub
URL:https://prstats.preprodw.com/course/metabarcoding-pipelines-for-eukariotic-communities-mpec01/
LOCATION:Delivered remotely (Portugal)\, Portugal
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/jpeg:https://prstats.preprodw.com/wp-content/uploads/2023/12/jeff-griffith-ZqYPM8i60F8-unsplash-scaled.jpg
GEO:39.399872;-8.224454
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20241007
DTEND;VALUE=DATE:20241011
DTSTAMP:20260419T022541
CREATED:20240404T115419Z
LAST-MODIFIED:20241002T184044Z
UID:10000454-1728259200-1728604799@prstats.preprodw.com
SUMMARY:ONLINE COURSE – Introduction to Metabarcoding and Metagenomics Analysis (IMAM01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, October 7th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE FORMAT\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTIME ZONE\nTIME ZONE – GMT (Edinburgh Local Time) – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				Metabarcoding and metagenomics study genetic material recovered from environmental samples. Both methods provide a comprehensive view of microbial communities which are present in various ecosystems. The ability to identify organisms from traces of genetic material in environmental samples has reshaped the way we see life on earth. Especially for microorganisms\, metagenomic techniques have granted us unprecedented insight into the microbiome of animals and the environment more broadly \nMetabarcoding and metagenomics are both methods to study the composition of these complex communities. Where metabarcoding focusses on looking at a single or a combination of marker genes\,  metagenomics looks into everything within a community.  \nDuring this course we will look at the differences and similarities between these two methods. We explain how to process the data using both short and long reads data\, we take a look at the pros and cons and some of the pitfalls. We will guide you through the different approaches to take when processing the data and walk you through using some of the tools which are considered to be golden standard in the field. You will have hands on experience processing real data. \nBy the end of the course\, participants should: \n\nUnderstand the basic concepts behind metabarcoding and metagenomics\nWork with both short and long read data for both metabarcoding and metagenomics\nBe able to use Qiime2 and NanoClust for analysis of metabarcoding\nKnow different methods (metaphlan\, humann) for marker based taxonomic and functional annotation of metagenomics data\nCreate and annotated metagenome assembled genomes (using megahit\, checkm\, gtdb-tk)\nBe able to annotated antibiotic resistance genes in metagenomics data\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				Academics and post-graduate students working on projects related to complex communities and applied researchers and analysts in public\, private or third-sector organizations who need the reproducibility\, speed and flexibility of a command-line language \n			\n				\n				\n				\n				\n				Venue\n				Delivered Remotely \n			\n				\n				\n				\n				\n				Course Details\n				Availability – 25 \nDuration – 4 days \nContact hours – Approx. 22 hours \nECT’s – Equal to 2 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				Intermediate-level lectures interspersed with hands-on mini practicals. Access to Linux VM and data sets for practicals will be provided by the instructors. Time will be available during the course for participants to ask questions regarding their own projects. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				Some familiarity of metagenomics will be helpful. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Good familiarity with Linux will be helpful. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				COMING SOON… \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\nPLEASE READ – CANCELLATION POLICY \n\n\nCancellations/refunds are accepted as long as the course materials have not been accessed\,. \n\n\nThere is a 20% cancellation fee to cover administration and possible bank fess. \n\n\nIf you need to discuss cancelling please contact oliverhooker@prstatistics.com. \n\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n\nDay 1 Classes from 10:00 – 15:30Metabarcoding• Data QC and preprocessing of short reads metabarcoding• Filtering\, denoising and assiingment of taxonomy using Qiime2• Align sequencing and build phylogenetic tree• Calculate alpha and beta diversity• Introduction into ANCOM-BC• Long read 16S \nDay 2 Classes from 10:00 – 15:30Short read metagenomics• Host removal using KneadData • Taxonomic profiling using MetaPhlan• Functional profiling using HumanN• Antibiotic resistance gene screening \nDay 3 Classes from 10:00 – 15:30Short read metagenomics• Metagenome assembly using megahit• Contigs binning and generation of metagenome assembled genomes (MAGs)• De-replication of MAGs• Taxonomic classification of MAGs using GTDB-Tk \nDay 4 Classes from 10:00 – 15:30Long read metagenomics• Long reads metagenomics using the DIAMOND-MEGAN pipeline• Data QC and preprocessing of long reads• Metagenome assembly using metaFlye• Functional annotation using Prokka \n			\n				\n				\n				\n				\n				Course Instructor\n \nEDINBURGH GENOMICS \n			\n				\n				\n				\n				\n				\n				\n					Heleen De Weerd\n					\n					Heleen de Weerd has been a bioinformatician since 2010\, accumulating experience in both industry and academia and working with people from different backgrounds. \n					\n				\n			\n				\n				\n				\n				\n				read more\n				Her expertise spans a wide array of topics with a special interest in genomic and the analysis of highly diverse samples. Since joining Edinburgh Genomics\, Heleen has focused on advancements in both short and long reads technologies and application of both to different research questions. She is passionate about sharing her experiences and helping people start their journeys with their data.\n			\n				\n				\n				\n				\n				\n				\n					Urmi Trivedi \n					\n					Urmi has been working as a Bioinformatician in research support role at Edinburgh Genomics\, a sequencing facility within The University of Edinburgh\, since 16 years. \n					\n				\n			\n				\n				\n				\n				\n				read more\n				She is now leading the Bioinformatics team for almost three years\, overseeing a group of experts who are integral to the success of over 100 projects annually.The facility\, equipped with cutting-edge sequencing platforms\, is at the forefront of genomic research\, and Urmi’s team plays a critical role in ensuring the highest standards of data quality and analysis\, both for in-house and external projects. Urmi is also a passionate educator\, actively involved in designing and delivering training programs that empower the next generation of bioinformaticians.  Her area of expertise is Genome assembly\, Genome annotation\, Metagenomics and metabarcoding. \n			\n				\n				\n				\n				\n				\n				\n					Dr Kathryn Campbell\n					\n					Kathryn recently joined the Edinburgh Genomics team as the Genomics and Bioinformatics Training Coordinator. With a diverse background in bioinformatics and molecular biology\, she specializes in phylogenetics and viral classification. \n					\n				\n			\n				\n				\n				\n				\n				read more\n				Her passion now lies in teaching and outreach\, where she brings extensive experience\, engaging with a broad range of audiences. Kathryn is dedicated to empowering learners through comprehensive training\, from sample preparation and sequencing to data analysis and interpretation. She is also committed to inspiring the next generation of biologists by working with primary and secondary schools to foster a love for science and genomics.
URL:https://prstats.preprodw.com/course/introduction-to-metabarcoding-and-metagenomics-analysis-imam01/
LOCATION:Delivered remotely (Portugal)\, Portugal
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/jpeg:https://prstats.preprodw.com/wp-content/uploads/2024/04/cdc-El76nrcRNw-unsplash-scaled.jpg
GEO:39.399872;-8.224454
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240917
DTEND;VALUE=DATE:20240921
DTSTAMP:20260419T022541
CREATED:20240402T162713Z
LAST-MODIFIED:20240910T124926Z
UID:10000451-1726531200-1726876799@prstats.preprodw.com
SUMMARY:ONLINE COURSE – Hidden Markov Models for movement\, acceleration and other ecological data – an introduction using moveHMM and momentuHMM in R (HMMM01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nTuesday\, September 17th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendeesthrough the accompanying computer practicals via video link\, so a good internet connection isessential. \nTime Zone\nTIME ZONE – Western European Time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. However\, all sessions will be recorded and made available\, allowing attendees from different time zones to follow asynchronously. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you). \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				Hidden Markov models (HMMs) are flexible statistical models for time series observations driven by underlying states. Over the last decade\, HMMs have become increasingly popular within the ecological community as they allow to uncover behavioural state dynamics from noisy sensor data. For example\, a typical HMM-based analysis of say GPS locations or acceleration measurements could involve the investigation of internal (e.g. sex\, size\, age) and external (e.g. temperature\, habitat) drivers of behavioural state occupancy. \nThis workshop will introduce the HMM framework\, comprising a mix of theoretical lectures and hands-on practical components using R. In the theoretical sessions\, the following topics will be covered: motivation & overview basic HMM formulation fitting an HMM to data model selection & model checking state decoding incorporating covariates\, seasonality and random effects other model extensions \nThese techniques will be illustrated primarily using movement and acceleration data\, but are applicable also to other ecological time series data (e.g. capture-recapture). In the practical sessions\, we will focus on HMM analyses using the R packages moveHMM and momentuHMM\, but will also showcase the use of hmmTMB. Basic knowledge of the free software R is helpful\, but not required. \nA basic understanding of statistics and probability calculus\, as it would be taught in any introductory statistics class\, is required. By the end of the course\, participants will have a good understanding of what HMMs are and what they can be used for. Participants will also be prepared to tailor a suitable HMM to their data and to implement the corresponding analysis in R. \n			\n				\n				\n				\n				\n				Intended Audiences\n				Academics and post-graduate students interested in adding HMMs to their methodological toolbox for analysing ecological data. \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Details\n				Availability – 25 places \nDuration – 3.5 days \nContact hours – Approx. 24 hours \nECT’s – Equal to 2 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				We will spend the mornings to learn about HMM methodology\, but will make these lectures asinteractive as possible\, with several R code snippets to try out and lots of time for questions. In theafternoons\, we will implement example HMM analyses in R. Some example data sets for the practical sessions will be provided by the instructors\, but participants are welcome to bring their own data. A Slack channel will be open to discuss any issues for which we may not have enough time in the sessions themselves. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				Basic understanding of statistics and probability calculus (e.g. probability distributions\, density functions\, conditional probability). \n			\n				\n				\n				\n				\n				Assumed computer background\n				Basic familiarity with R is sufficient. In fact\, participants will be able to follow most of the workshopwithout prior knowledge of R. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nParticipants must use a computer with a good internet connection\, a working recent version or R (and ideally also RStudio)\, and recent versions of some R packages whose installation instructions will be sent a few days before the course. A working webcam is desirable for enhanced interactivity during the live sessions. Some computation power is required for modelling large datasets\, although the provided example data (and suggested subsets of participants’ data) can run on an ordinary laptop. \n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n \n  \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Tuesday 17th\n				Day 1 – Classes from 08:30 – 16:00 \nThree 1-hour theory sessions: \n motivation & overview preliminaries: probability calculus & Markov chains the basic HMM formulationA 1-hour practical session: simulating data from an HMM \n			\n				\n				\n				\n				\n				Wednesday 18th\n				Day 2 – Classes from 08:30 – 16:00Three 1-hour theory sessions: fitting an HMM to real data\, part I fitting an HMM to real data\, part II fitting HMMs to movement and acceleration dataA 2-hour practical session: fitting an HMM to real data \n  \n			\n				\n				\n				\n				\n				Thursday 19th\n				Day 3 – Classes from 08:30 – 16:00Three 1-hour theory sessions: model selection & model checking state decoding covariatesA 2-hour practical session: complete HMM workflow \n			\n				\n				\n				\n				\n				Friday 20th\n				Day 4 – Classes from 08:30 – 11:00Three 1-hour theory sessions: overview of extensions\, part I overview of extensions\, part II time discuss participants’ own data/questions \n			\n			\n				\n				\n				\n				\n				\n				\n					Prof. Roland Langrock\n					\n					Roland is a professor of statistics and data analysis at Bielefeld University in Germany\, where he is heavily involved in the teaching of introductory statistics courses as well as advanced statistical methods. His research focuses on statistical method development for state-switching time series models\, in particular hidden Markov models\, as well as their applications primarily in ecology\, sports and economics. Within statistical ecology\, he has published extensively on the modelling of animal movement and general behaviour\, but also on capture-recapture and distance sampling.Google ScholarHomepage
URL:https://prstats.preprodw.com/course/hidden-markov-models-for-movement-acceleration-and-other-ecological-data-hmmm01/
LOCATION:Delivered remotely (Portugal)\, Portugal
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/jpeg:https://prstats.preprodw.com/wp-content/uploads/2024/04/michael-blum-5MOScwaoYXM-unsplash-2-scaled.jpg
GEO:39.399872;-8.224454
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240827
DTEND;VALUE=DATE:20240906
DTSTAMP:20260419T022541
CREATED:20221215T123244Z
LAST-MODIFIED:20240223T142502Z
UID:10000413-1724716800-1725580799@prstats.preprodw.com
SUMMARY:ONLINE COURSE – Reproducible and collaborative data analysis with R (RACR03) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nTuesday 27th August\, 2023\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTime Zone\nTIME ZONE – CET – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you).\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				\n\n\nThe computational part of a research is considered reproducible when other scientists (including ourselves in the future) can obtain identical results using the same code\, data\, workflow and software. Research results are often based on complex statistical analyses which make use of various software. In this context\, it becomes rather difficult to guarantee the reproducibility of the research\, which is increasingly considered a requirement to assess the validity of scientific claims. Moreover\, reproducibility is not only important for findings published in academic journals. It also becomes relevant for sharing analyses within a team\, with external collaborators and with one’s supervisor. During this course\, the participants will be introduced to a suite of tools they can use in combination with R to make reproducible the computational part of their own research. A strong emphasis is given to collaboration\, and participants will learn how to set up a project to work with other people in an efficient way. \nAt the start off the course\, participants learn about the most important aspects that make research reproducible\, which go beyond simply sharing R code. This includes problems arising from the use of different packages versions\, R versions\, and operating systems. The concept of research compendium is introduced and proposed as general framework to organise any research project. The course then moves on to version control with Git and GitHub which are fundamental tools for keeping track of code changes and for collaborating with other people on the same project. We will cover both\, basic and more advanced features\, like tagging\, branching\, and merging. Towards the end of the course the participants are introduced to literate programming using Quarto (the new scientific and publishing system recently released by RStudio) with the focus on writing a scientific article or report. The aim is to bind the outputs of the R analysis (i.e. results\, tables\, and figures) together with the text of the article. Participants will also learn how to use templates to fulfil requirements of different journals. \n\n\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				This course is suitable for any MSc and PhD students\, postdocs and practitioners from any research field interested in collaborative projects and delivering reproducible results using R.\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely\n			\n				\n				\n				\n				\n				Course Details\n				Time zone – CET\n\nAvailability – 20 places \nDuration – 3 days \nContact hours – Approx. 20 hours \nECT’s – Equal to 2 ECT’s \nLanguage – English\n			\n				\n				\n				\n				\n				Teaching Format\n				\n\n\n\n\n\nOn each day\, participants will get an introduction to a different tool and practice its use together with the instructor. There will be lecture-style presentations to explain the different problems that make research not reproducible and provide possible solutions to the problem. Lectures will be alternated with hands-on sections guided by the instructor and group exercises to enhance collaboration skills. \n\n\n\n\n\n\n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				\n\n\nA basic knowledge of statistics is required. \n\n\n\n			\n				\n				\n				\n				\n				Assumed computer background\n				The participants are required to have some previous experience with R and should know the main data types and how to run commands to create basic plots.\n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. R may be downloaded by following the links here https://www.r-project.org/. RStudio may be downloaded by following the links here: https://www.rstudio.com/. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer). Participants should also create a GitHub account in order to attend the second day of this course. Instructions on how to create the account and how to install Git will be provided during the first day. \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nA working webcam is desirable for enhanced interactivity during the live sessions\, we encourage attendees to keep their cameras on during live zoom sessions. \n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Tuesday 27th\n				Classes from 17:00-20:00 CET \n\n\n\nDAY 1 \n\nIntro to the reproducibility crisis\nExamples of problems arising from different Operating Systems\, R versions\, andpackage versions\nWhat happens when you start R\nRStudio projects\nProject organization\n\n\n\n\n\n\n \n\n\n			\n				\n				\n				\n				\n				Wednesday 28th\n				Classes from 17:00-20:00 CET \nDAY 2 \n\n\n\n\nCode style\nReproducible R environment\n\n\n\n\n			\n				\n				\n				\n				\n				Thursday 29th\n				Classes from 17:00-20:00 CET \nDAY 3 \n\nIntro to Git and Github\nConfigure Git and GitHub\nGit basic from command line\nCreate a local repository and push it on Github\nCraft a good commit\nClone and fork a GitHub repository\n\n			\n				\n				\n				\n				\n				Tuesday 3rd\n				Classes from 17:00-20:00 CET \nDAY 4 \n\nCraft a pull request\nGit branch\, merge\, and tag\nGit checkout\, reset\, and revert\nUse Git with RStudio\nIgnore files\n\n			\n				\n				\n				\n				\n				Wednesday 4th\n				Classes from 17:00-20:00 CET \nDAY 5 \n\nLiterate programming\nQuarto to produce html\, word\, and pdf outputs\nManage references with Zotero\nUse templates for word output\n\n			\n				\n				\n				\n				\n				Thursday 5th\n				Classes from 17:00-20:00 CET \nDAY 6 \n\nWrite your scientific article with RMarkdown\nReference tables and figures in the text\n\n			\n			\n				\n				\n				\n				\n				\n				\n					Dr. Sergio Vignali\n					\n					Sergio Vignali is a postdoctoral researcher at the University of Bern (Switzerland)\, in the division of Conservation Biology of the Institute of Ecology and Evolution. His research focuses on spatial predictive models for animal movements and distributions. Sergio combines his strong scientific interest in animal ecology\, particularly birds\, with his computational and statistical background to develop new methodological approaches. He is the developer of SDMtune\, an R package to tune and evaluate species distribution models. Sergio is also an advocate of open source software and is committed to improving transparency and reproducibility in research. \nResearchGate\nGoogleScholar\nORCID\nGitHub
URL:https://prstats.preprodw.com/course/reproducible-and-collaborative-data-analysis-with-r-racr03/
LOCATION:Delivered remotely (Portugal)\, Portugal
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/jpeg:https://prstats.preprodw.com/wp-content/uploads/2022/07/andrea-lightfoot-Pj6fYNRzRT0-unsplash-scaled.jpg
GEO:39.399872;-8.224454
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240522
DTEND;VALUE=DATE:20240524
DTSTAMP:20260419T022541
CREATED:20220302T121123Z
LAST-MODIFIED:20240229T000503Z
UID:10000401-1716336000-1716508799@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Adapting to the recent changes in R spatial packages (sf\, terra\, PROJ library) (PROJ05) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nWednesday\, May 22nd\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE FORMAT\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nTIME ZONE\nTIME ZONE – `Central European Standard Time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you. \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				R statistical software is becoming increasingly popular for spatial analysis and mapping. This is partially due to a large number of R packages devoted to applying various spatial methods. These packages\, however\, are being revised\, updated\, or even superseded to allow for better performance\, simpler user interface\, or expanded capabilities. Substantial recent changes in R spatial packages include developing the ‘sf’ package as a successor of ‘sp’\, creation of `terra` as a successor of `raster`\, and establishing the `stars` package. Additionally\, all of these packages were affected by the recent major updates of the PROJ library. In this course\, we will learn to use key packages for the analysis of spatial data\, both vector (‘sf’) and raster (‘terra’)\, and see how they differ from their older counterparts\, ‘sp’ and ‘raster’. Another important aspect of the course will be to understood spatial projections and coordinate systems\, how the recent PROJ changes affect R users\, and how to adjust to them. \nBy the end of the course\, participants should: \n\nUnderstand the basic concepts behind spatial analysis ecosystem in R\nKnow how packages such as sp/rgeos/rgdal/raster differ from their successors sf/terra/star\nBe able to switch from using packages such as sp/rgeos/rgdal/raster to sf/terra/stars\nUnderstood the basic concepts behind spatial projections\, and how PROJ.7 differs from PROJ4\nKnow how to deal with coordinate reference systems in R\nHave the confidence to switch from PROJ4 to PROJ7 (i.e.\, for instance\, adjusting old scripts based on PROJ4)?\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				\nAcademics and post-graduate students working on projects related to spatial data\nApplied researchers and analysts in public\, private or third-sector organizations who need the reproducibility\, speed and flexibility of a command-line language such as R for spatial data analysis\nCurrent R users wanting to update your knowledge\, including switch from using `sp` to `sf`\, and from `raster` to `terra`\nThe course is designed for intermediate R users interested in understanding modern tools for spatial data analysis in R and R beginners who have prior experience with geographic data and other spatial software.\n			\n				\n				\n				\n				\n				Course Details\n				Time zone – Central Europe Standard Time \nAvailability – TBC \nDuration – 2 days \nContact hours – Approx. 15 hours \nECT’s – Equal to 1 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				The course will be a mixture of theoretical and practical. Each concept will be first described and explained\, and next the attendees will exercise the topics using provided data sets. \n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				Understanding basic GIS concepts\, such as spatial vector\, spatial raster\, coordinate reference systems would be beneficial\, but is not necessary. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Attendees should already have experience with R and be able to read csv files\, create simple plots\, and manipulate data frames. The experience of using some basic R spatial packages\, such as sp or raster would be beneficial. \nHowever\, if you do not have R experience but already use GIS software and have a strong understanding of geographic data types\, and some programming experience\, the course may also be appropriate for you. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer).  \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\nUNSURE ABOUT SUITABLILITY THEN PLEASE ASK oliverhooker@prstatistics.com \n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited. \n​ \n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n  \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Wednesday 22nd\n				Classes from 09:00 to 17:00Overview of spatial analysis ecosystem in R• available R packages for spatial analysis in R• how do R packages represent spatial objects\, and how are they connected with each other• importance of using the more recent R spatial packages\, such as ‘sf’ or ‘terra’• main concepts behind map projections (geoids\, datums\, geographic/projected coordinates\, types of projections\, etc.)• implementation of these concepts in the PROJ library (used by most R spatial packages)• differences between PROJ.4 and its newer versions (e.g. PROJ.7)Spatial vector data analysis in R• spatial vector data processing & analysis in R• read/write/and visualize spatial vector data• differences between ‘sp’/’rgdal’/’rgeos’ and ‘sf’• moving from ‘sp’ to ‘sf’ for spatial vector data processing & analysis• spherical geometry: how this concept was recently implemented in sf\, and what is an impact of this implementation \n			\n				\n				\n				\n				\n				Thursday 23rd\n				Classes from 09:00 to 17:00Spatial raster data analysis in R• spatial raster data processing & analysis in R• read/write/and visualize spatial raster data• differences between ‘raster’ and ‘stars’/’terra’• moving from ‘raster’ to ‘terra’ for spatial raster data processing & analysis• short overview of package ‘stars’Coordinate reference systems• how to switch from PROJ.4 to PROJ.7 in R• open session: questions from the participants \n			\n			\n				\n				\n				\n				\n				\n				\n					Jakub Nowosad\n					Works at: Adam Mickiewicz University \n					Jakub Nowosad is a computational geographer working at the intersection between geocomputation and the environmental sciences. His research is focused on developing and applying spatial methods to broaden understanding of processes and patterns in the environment. A vital part of his work is to create\, collaborate\, and improve geocomputational software. He is an active member of the #rspatial community and a co-author of the Geocomputation with R book. \nResearchGateGoogleScholarORCIDLinkedInGitHub \n					\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Teaches\n				\nIntroduction to spatial analysis of ecological data using R (ISPE)\nMaking beautiful and effective maps in R (MAPR\nAdapting to the recent changes in R spatial packages (sf\, terra\, PROJ library) (PROJ\n\n			\n				\n				\n				\n				\n				Teaches\n				\nIntroduction to spatial analysis of ecological data using R (ISPE)\nMaking beautiful and effective maps in R (MAPR\nAdapting to the recent changes in R spatial packages (sf\, terra\, PROJ library) (PROJ
URL:https://prstats.preprodw.com/course/adapting-to-the-recent-changes-in-r-spatial-packages-sf-terra-proj-library-proj05/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time Zone\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/PROJ02R.png
GEO:53.1423672;-7.6920536
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240415
DTEND;VALUE=DATE:20240427
DTSTAMP:20260419T022541
CREATED:20240404T164741Z
LAST-MODIFIED:20240404T164749Z
UID:10000457-1713139200-1714175999@prstats.preprodw.com
SUMMARY:In Person Course - Advanced Python for Biologists - University of Glasgow
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, April 15th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				This course is being deliver by Martin Jones @ Python for Biologists\, you can book via his website here\nhttps://www.polyomics.gla.ac.uk/course-python_course_APR24.html
URL:https://prstats.preprodw.com/course/advanced-python-for-biologists/
LOCATION:Delivered remotely (Portugal)\, Portugal
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2024/04/Screenshot-2024-04-04-at-17.40.33.png
GEO:39.399872;-8.224454
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240325
DTEND;VALUE=DATE:20240330
DTSTAMP:20260419T022541
CREATED:20240118T173343Z
LAST-MODIFIED:20240222T140338Z
UID:10000444-1711324800-1711756799@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Advancing in R (ADVR01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, March 25th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCourse Program\nTIME ZONE – Ireland local time – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you.\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				COURSE DETAILS \nThis course is designed to provide attendees with a comprehensive understanding of\nstatistical modelling and its applications in various fields\, such as ecology\, biology\, sociology\,\nagriculture\, and health. We cover all foundational aspects of modelling\, including all coding\naspects\, ranging from data wrangling\, visualisation and exploratory data analysis\, to\ngeneralized linear mixed models\, assessing goodness-of-fit and carrying out model\ncomparison. \nData wrangling\nFor data wrangling\, we focus on tools provided by R's tidyverse. Data wrangling is the art of\ntaking raw and messy data and formatting and cleaning it so that data analysis and\nvisualization may be performed on it. Done poorly\, it can be a time consuming\, laborious\,\nand error-prone. Fortunately\, the tools provided by R's tidyverse allow us to do data\nwrangling in a fast\, efficient\, and high-level manner\, which can have dramatic consequence\nfor ease and speed with which we analyse data. We start with how to read data of different\ntypes into R\, we then cover in detail all the dplyr tools such as select\, filter\, mutate\, and\nothers. Here\, we will also cover the pipe operator (%>%) to create data wrangling pipelines\nthat take raw messy data on the one end and return cleaned tidy data on the other. We\nthen cover how to perform descriptive or summary statistics on our data using dplyr’s\ngroup_by and summarise functions. We then turn to combining and merging data. Here\, we\nwill consider how to concatenate data frames\, including concatenating all data files in a\nfolder\, as well as cover the powerful SQL-like join operations that allow us to merge\ninformation in different data frames. The final topic we will consider is how to “pivot” data\nfrom a “wide” to “long” format and back using tidyr’s pivot_longer and pivot_wider\nfunctions. \nData visualisation\nFor visualisation\, we focus on the ggplot2 package. We begin by providing a brief overview\nof the general principles data visualization\, and an overview of the general principles behind\nggplot. We then proceed to cover the major types of plots for visualizing distributions of\nunivariate data: histograms\, density plots\, barplots\, and Tukey boxplots. In all of these\ncases\, we will consider how to visualize multiple distributions simultaneously on the same\nplot using different colours and "facet" plots. We then turn to the visualization of bivariate\ndata using scatterplots. Here\, we will explore how to apply linear and nonlinear smoothing\nfunctions to the data\, how to add marginal histograms to the scatterplot\, add labels to\npoints\, and scale each point by the value of a third variable. We then cover some additional\nplot types that are often related but not identical to those major types covered during the\nbeginning of the course: frequency polygons\, area plots\, line plots\, uncertainty plots\, violin\nplots\, and geospatial mapping. We then consider more fine grained control of the plot by\nchanging axis scales\, axis labels\, axis tick points\, colour palettes\, and ggplot "themes".\nFinally\, we consider how to make plots for presentations and publications. Here\, we will introduce how to insert plots into documents using RMarkdown\, and also how to create\nlabelled grids of subplots of the kind seen in many published articles. \nGeneralized linear models\nGeneralized linear models are generalizations of linear regression models for situations\nwhere the outcome variable is\, for example\, a binary\, or ordinal\, or count variable\, etc. The\nspecific models we cover include binary\, binomial\, and categorical logistic regression\,\nPoisson and negative binomial regression for count variables\, as well as extensions for\noverdispersed and zero-inflated data. We begin by providing a brief overview of the normal\ngeneral linear model. Understanding this model is vital for the proper understanding of how\nit is generalized in generalized linear models. Next\, we introduce the widely used binary\nlogistic regression model\, which is is a regression model for when the outcome variable is\nbinary. Next\, we cover the binomial logistic regression\, and the multinomial case\, which is\nfor modelling outcomes variables that are polychotomous\, i.e.\, have more than two\ncategorically distinct values. We will then cover Poisson regression\, which is widely used for\nmodelling outcome variables that are counts (i.e the number of times something has\nhappened). We then cover extensions to accommodate overdispersion\, starting with the\nquasi-likelihood approach\, then covering the negative binomial and beta-binomial models\nfor counts and discrete proportions\, respectively. Finally\, we will cover zero-inflated Poisson\nand negative binomial models\, which are for count data with excessive numbers of zero\nobservations. \nMixed models\nWe will focus primarily on multilevel linear models\, but also cover multilevel generalized\nlinear models. Likewise\, we will also describe Bayesian approaches to multilevel modelling.\nWe will begin by focusing on random effects multilevel models. These models make it clear\nhow multilevel models are in fact models of models. In addition\, random effects models\nserve as a solid basis for understanding mixed effects\, i.e. fixed and random effects\, models.\nIn this coverage of random effects\, we will also cover the important concepts of statistical\nshrinkage in the estimation of effects\, as well as intraclass correlation. We then proceed to\ncover linear mixed effects models\, particularly focusing on varying intercept and/or varying\nslopes regression models. We will then cover further aspects of linear mixed effects models\,\nincluding multilevel models for nested and crossed data data\, and group level predictor\nvariables. Towards the end of the course we also cover generalized linear mixed models\n(GLMMs)\, how to accommodate overdispersion through individual-level random effects\, as\nwell as Bayesian approaches to multilevel levels using the brms R package. \nModel selection and model simplification\nThroughout the course we consider the fundamental issue of how to measure model fit and\na model’s predictive performance\, and discuss a wide range of other major model fit\nmeasurement concepts like likelihood\, log likelihood\, deviance\, and residual sums of\nsquares. We thoroughly explore nested model comparison\, particularly in general and\ngeneralized linear models\, and their mixed effects counterparts. We discuss out-of-sample\ngeneralization\, and introduce leave-one-out cross-validation and the Akaike Information Criterion (AIC). We also cover general concepts and methods related to variable selection\,\nincluding stepwise regression\, ridge regression\, Lasso\, and elastic nets. Finally\, we turn to\nmodel averaging\, which may represent a preferable alternative to model selection.\n			\n				\n				\n				\n				\n				Intended Audiences\n				This course is aimed at anyone who is interested in using R for data science or statistics. R is widely used in all areas of academic scientific research\, and also widely throughout the public\, and private sector.\n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely\n			\n				\n				\n				\n				\n				Course Information\n				Time zone – GMT+1 \nAvailability – TBC \nDuration – 3 x 1/2 days \nContact hours – Approx. 12 hours \nECT’s – Equal to 1 ECT’s \nLanguage – English\n			\n				\n				\n				\n				\n				Teaching Format\n				This course will be largely practical\, hands-on\, and workshop based. For each topic\, there will first be some lecture style presentation\, i.e.\, using slides or blackboard\, to introduce and explain key concepts and theories. Then\, we will cover how to perform the various statistical analyses using R. Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. For the breaks between sessions\, and between days\, optional exercises will be provided. Solutions to these exercises and brief discussions of them will take place after each break. \nThe course will take place online using Zoom. On each day\, the live video broadcasts will occur during UK local time at:\n• 10am-12pm\n• 1pm-3pm\n• 4pm-6pm \nAll sessions will be video recorded and made available to all attendees as soon as possible\, hopefully soon after each 2hr session. \nIf some sessions are not at a convenient time due to different time zones\, attendees are encouraged to join as many of the live broadcasts as possible. For example\, attendees from North America may be able to join the live sessions from 3pm-5pm and 6pm-8pm\, and then catch up with the 12pm-2pm recorded session once it is uploaded. By joining any live sessions that are possible will allow attendees to benefit from asking questions and having discussions\, rather than just watching prerecorded sessions. \nAt the start of the first day\, we will ensure that everyone is comfortable with how Zoom works\, and we’ll discuss the procedure for asking questions and raising comments. \nAlthough not strictly required\, using a large monitor or preferably even a second monitor will make the learning experience better\, as you will be able to see my RStudio and your own RStudio simultaneously. \nAll the sessions will be video recorded\, and made available immediately on a private video hosting website. Any materials\, such as slides\, data sets\, etc.\, will be shared via GitHub\n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				A basic understanding of statistical concepts. Specifically\, generalised linear regression models\, statistical significance\, hypothesis testing.\n			\n				\n				\n				\n				\n				Assumed computer background\n				Familiarity with R. Ability to import/export data\, manipulate data frames\, fit basic statistical models & generate simple exploratory and diagnostic plots.\n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer). \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com\n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 25th\n				Classes from 10:00-13:00 & 14:00-17:00 Ireland local time to 16:00 \nDay 1 \nTopic 1: Reading in data. We will begin by reading in data into R using tools such\nas readr and readxl. Almost all types of data can be read into R\, and here we will consider\nmany of the main types\, such as csv\, xlsx\, sav\, etc. Here\, we will also consider how to control\nhow data are parsed\, e.g.\, so that they are read as dates\, numbers\, strings\, etc. \nTopic 2: Wrangling with dplyr. We will next cover the very powerful dplyr R package. This\npackage supplies a number of so-called "verbs" — select\, rename\, slice\, filter\, mutate\, arrange\, etc. — each of which focuses on a key data manipulation tools\, such as selecting or changing variables. All of these verbs can be chained together using "pipes" (represented by %>%). Together\, these create powerful data wrangling pipelines that take raw data as input and return cleaned data as output. Here\, we will also learn about the key concept of "tidy data"\, which is roughly where each row of a data frame is an observation and each column is a variable. \nTopic 3: Summarizing data. The summarize and group_by tools in dplyr can be used with\ngreat effect to summarize data using descriptive statistics. \nTopic 4: Merging and joining data frames. There are multiple ways to combine data frames\,\nwith the simplest being "bind" operations\, which are effectively horizontal or vertical\nconcatenations. Much more powerful are the SQL-like "join" operations. Here\, we will\nconsider the inner_join\, left_join\, right_join\, full_join operations. In this section\, we will also\nconsider how to use purrr to read in and automatically merge large sets of files. \nTopic 5: Pivoting data. Sometimes we need to change data frames from "long" to "wide"\nformats. The R package tidyr provides the tools pivot_longer and pivot_wider for doing this.\n			\n				\n				\n				\n				\n				Tuesday 26th\n				Classes from 10:00-13:00 & 14:00-17:00 Ireland local time to 16:00 \nDay 2 \nTopic 1: What is data visualization. Data visualization is a means to explore and understand\nour data and should be a major part of any data analysis. Here\, we briefly discuss why data\nvisualization is so important and what the major principles behind it are. \nTopic 2: Introducing ggplot. Though there are many options for visualization in R\, ggplot is\nsimply the best. Here\, we briefly introduce the major principles behind how ggplot works\,\nnamely how it is a layered grammar of graphics.\nTopic 3: Visualizing univariate data. Here\, we cover a set of major tools for visualizing\ndistributions over single variables: histograms\, density plots\, barplots\, Tukey boxplots. In each case\, we will explore how to plot multiple groups of data simultaneously using different colours and also using facet plots. \nTopic 4: Scatterplots. Scatterplots and their variants are used to visualize bivariate data.\nHere\, in addition to covering how to visualize multiple groups using colours and facets\, we\nwill also cover how to provide marginal plots on the scatterplots\, labels to points\, and how\nto obtain linear and nonlinear smoothing of the plots. \nTopic 5: More plot types. Having already covered the most widely used general purpose\nplots\, we now turn to cover a range of other major plot types: frequency polygons\, area\nplots\, line plots\, uncertainty plots\, violin plots\, and geospatial mapping. Each of these are\nimportant and widely used types of plots\, and knowing them will expand your repertoire. \nTopic 6: Fine control of plots. Thus far\, we will have mostly used the default for the plot\nstyles and layouts. Here\, we will introduce how to modify things like the limits and scales on\nthe axes\, the positions and nature of the axis ticks\, the colour palettes that are used\, and\nthe different types of ggplot themes that are available. \nTopic 7: Plots for publications and presentations. Thus far\, we have primarily focused on\ndata visualization as a means of interactively exploring data. Often\, however\, we also want\nto present our plots in\, for example\, published articles or in slide presentations. It is simple\nto save a plot in different file formats\, and then insert them into a document. However\, a\nmuch more efficient way of doing this is to use RMarkdown to run the R code and\nautomatically insert the resulting figure into a\, for example\, Word document\, pdf document\,\nhtml page\, etc. In addition\, here we will also cover how to make labelled grids of subplots\nlike those found in many scientific articles.\n			\n				\n				\n				\n				\n				Wednesday 27th\n				Classes from 10:00-13:00 & 14:00-17:00 Ireland local time to 16:00 \nDay 3 \nTopic 1: The general linear model. We begin by providing an overview of the normal\, as in\nnormal distribution\, general linear model\, including using categorical predictor variables.\nAlthough this model is not the focus of the course\, it is the foundation on which generalized\nlinear models are based and so must be understood to understand generalized linear\nmodels. \nTopic 2: Binary logistic regression. Our first generalized linear model is the binary logistic\nregression model\, for use when modelling binary outcome data. We will present the\nassumed theoretical model behind logistic regression\, implement it using R’s glm\, and then\nshow how to interpret its results\, perform predictions\, and (nested) model comparisons. \nTopic 3: Binomial logistic regression. Here\, we show how the binary logistic regression can\nbe extended to deal with data on discrete proportions. We will also present alternative link\nfunctions to the logit\, such as the probit and complementary log-log links. \nTopic 4: Categorical logistic regression. Categorical logistic regression\, also known as multinomial logistic regression\, is for modelling polychotomous data\, i.e. data taking more than two categorically distinct values. Categorical logistic regression is based on an extension of the binary logistic regression case. \nTopic 5: Poisson regression. Poisson regression is a widely used technique for modelling\ncount data\, i.e.\, data where the variable denotes the number of times an event has occurred.\n			\n				\n				\n				\n				\n				Thursday 28th\n				Classes from 10:00-13:00 & 14:00-17:00 Ireland local time to 16:00 \nTopic 1: Measuring model fit. Here\, the concept of conditional probability of the observed\ndata\, or of future data\, is of vital importance. This is intimately related\, though distinct\, to\nconcept of likelihood and the likelihood function\, which is in turn related to the concept of\nthe log likelihood or deviance of a model. Here\, we also show how these concepts are\nrelated to concepts of residual sums of squares\, root mean square error (rmse)\, and\ndeviance residuals. \nTopic 2: Nested model comparison. In this section\, we cover how to do nested model\ncomparison in general linear models\, generalized linear models\, and their mixed effects\n(multilevel) counterparts. First\, we precisely define what is meant by a nested model. Then\nwe show how nested model comparison can be accomplished in general linear models with\nF tests\, which we will also discuss in relation to R^2 and adjusted R^2. In generalized linear\nmodels\, we can accomplish nested model comparison using deviance based chi-square tests\nvia Wilks’s theorem. \nTopic 3: Overdispersion models. The quasi-likelihood approach for both the Poisson and\nbinomial models. Negative binomial regression. The negative binomial model is\, like the\nPoisson regression model\, used for unbounded count data\, but it is less restrictive than\nPoisson regression\, specifically by dealing with overdispersed data. Beta-binomial\nregression. The beta-binomial model is an overdispersed alternative to the binomial. \nTopic 4: Zero inflated models. Zero inflated count data is where there are excessive\nnumbers of zero counts that can be modelled using either a Poisson or negative binomial\nmodel. Zero inflated Poisson or negative binomial models are types of latent variable\nmodels. \nTopic 5: Random effects models. The defining feature of multilevel models is that they are\nmodels of models. We begin by using a binomial random effects model to illustrate this.\nSpecifically\, we show how multilevel models are models of the variability in models of\ndifferent clusters or groups of data. \nTopic 6: Normal random effects models. Normal\, as in normal distribution\, random effects\nmodels are the key to understanding the more general and widely used linear mixed effects\nmodels. Here\, we also cover the key concepts of statistical shrinkage and intraclass\ncorrelation.\n			\n				\n				\n				\n				\n				Friday 29th\n				Classes from 10:00-13:00 & 14:00-17:00 Ireland local time to 16:00 \nDay 5 \nTopic 1: Out of sample predictive performance: cross validation and information criteria.\nHere\, we describe how to measure out of sample predictive performance\, which measures\nhow well a model can generalize to new data. This is arguably the gold-standard for\nevaluating any statistical models. A practical means to measure out of sample predictive\nperformance is cross-validation\, especially leave-one-out cross-validation. Leave-one-out\ncross-validation can\, in relatively simple models\, be approximated by Akaike Information\nCriterion (AIC)\, which can be exceptionally simple to calculate. We will discuss how to\ninterpret AIC values\, and describe other related information criteria\, some of which will be\nused in more detail in later sections. \nTopic 2: Linear mixed effects models. Next\, we turn to multilevel linear models\, also known\nas linear mixed effects models. We specifically deal with the cases of varying intercept\nand/or varying slope linear regression models. \nTopic 3: Multilevel models for nested data. Here\, we will consider multilevel linear models\nfor nested\, as in groups of groups\, data. As an example\, we will look at multilevel linear\nmodels applied to data from students within classes that are themselves within different\nschools\, and where we model the variability of effects across the classes and across the\nschools. \nTopic 4: Multilevel models for crossed data. In some multilevel models\, each observation\noccurs in multiple groups\, but these groups are not nested. For example\, animals may be\nmembers of different species and in different locations\, but the species are not subsets of\nlocations\, nor vice versa. These are known as crossed or multiclass data structures. \nTopic 5: Group level predictors. In some multilevel regression models\, predictor variable are\nsometimes associated with individuals\, and sometimes associated with their groups. In this\nsection\, we consider how to handle these two situations. \nTopic 6: Generalized linear mixed models (GLMMs). Here\, we extend the linear mixed model\nto the exponential family of distributions and showcase an example using the Poisson\nGLMM. We also cover how to accommodate overdispersion through individual-level\nrandom effects. \nTopic 7: Bayesian multilevel models. All of the models that we have considered can be\nhandled\, often more easily\, using Bayesian models. Here\, we provide an brief introduction\nto Bayesian models and how to perform examples of the models that we have considered\nusing Bayesian methods and the brms R package. \nTopic 8: Variable selection. Variable selection is a type of nested model comparison. It is\nalso one of the most widely used model selection methods\, and variable selection of some\nkind is almost always done routinely in all data analysis. In particular\, we cover stepwise\nregression (and its limitations)\, all subsets methods\, ridge regression\, Lasso\, and elastic nets.\nTopic 9: Model averaging. Rather than selecting one model from a set of candidates\, it is\narguably always better perform model averaging\, using all the candidates models\, weighted by the predictive performance. We show how to perform model average using information\ncriteria.\n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Rafael De Andrade Moral \nRafael is an Associate Professor of Statistics at Maynooth University\, Ireland. With a background in Biology and a PhD in Statistics from the University of São Paulo\, Rafael has a deep passion for teaching and conducting research in statistical modelling applied to Ecology\, Wildlife Management\, Agriculture\, and Environmental Science. As director of the Theoretical and Statistical Ecology Group\, Rafael brings together a community of researchers who use mathematical and statistical tools to better understand the natural world. As an alternative teaching strategy\, Rafael has been producing music videos and parodies to promote Statistics in social media and in the classroom. His personal webpage can be found here \nResearchGate\nGoogleScholar\nORCID\nGitHub
URL:https://prstats.preprodw.com/course/advancing-in-r-advr01/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/jpeg:https://prstats.preprodw.com/wp-content/uploads/2024/01/nick-owuor-astro-nic-portraits-wDifg5xc9Z4-unsplash-scaled.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240319
DTEND;VALUE=DATE:20240323
DTSTAMP:20260419T022541
CREATED:20231129T180550Z
LAST-MODIFIED:20240223T134431Z
UID:10000440-1710806400-1711151999@prstats.preprodw.com
SUMMARY:ONLINE COURSE - An Introduction to Spatial Eco-Phylogenetics and Comparative Methods (SECM01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nTuesday\, March 19th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE FORMAT\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCOURSE PROGRAM\nTIME ZONE – CET (Central European Time) – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you). \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				About This Course\n				\nIn this course we introduce phylogenetic analyses in a spatial context. Phylogenetic analyses often imply a high number of species for which phylogenetic information is unavailable\, hence we begin by providing an overview on modern techniques to incorporate phylogenetic uncertainty in the analyses (day 1). We then cover the most popular analyses in the spatial phylogenetics discipline (day 2)\, with particular focus on the canonical analysis of neo- and paleo-endemism (CANAPE). The second part of the course will be devoted to integrating phylogenetic information into models of geographic distribution of species (day 3)\, followed by an overview of recent advances to improve ecological forecasts using phylogenetic mixed models in a Bayesian framework (day 4).  \n\nBy the end of the course\, participants should: \n\nKnow how to expand incomplete phylogenies based on taxonomic information and customizing simulation parameters for optimal expansion.\nUnderstand the metrics and concepts used in spatial phylogenetics (i.e. phylogenetic alpha and beta diversity\, phylogenetic endemism)\, interpret them critically\, and assess pros and cons of analytical techniques.\nCalculate phylogenetic predictors that can be included as covariates in Species Distribution or Niche Models.\nUnderstand and implement the phylogenetic mixed model (PMM) and translate its predictions into a spatial context.\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				This course is aimed at anyone who wishes to introduce into spatial phylogenetics and comparative analyses (in general and within a spatial context in particular) \n			\n				\n				\n				\n				\n				Course Details\n				Venue – Delivered remotelyAvailability – 30 placesDuration – 5 daysContact hours – Approx. 35 hoursECT’s – Equal to 3 ECT’sLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				The course will be hands-on and workshop based. Throughout each day\, there will be some introductory remarks for each new topic\, introducing and explaining key concepts. \nAll the sessions will be video recorded\, and made available immediately on a private video hosting website. Any materials\, such as slides\, data sets\, etc.\, will be shared with the attendees. \n			\n				\n				\n				\n				\n				Assumed quantative knowledge\n				\nWe will assume general familiarity with the very basics of statistics (e.g. summary statistics\, distributions). As this is an introductory course\, no phylogenetic background is required. \n\n			\n				\n				\n				\n				\n				Assumed computer background\n				We will assume general familiarity with R elementary operations (e.g. package sourcing\, data importing and exporting\, object indexing) and some familiarity with programming in R (writing code). \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer). \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\nPLEASE READ – CANCELLATION POLICY \n\n\n\n\nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited. \n\n\n\n\n\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n\n\n\n			\n				\n				\n				\n				\n				\nIf you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n\n \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Tuesday 19th\n				Classes from 8:00 to 13:00 CET \nDAY 1 \nExpansion of molecular trees using taxonomic information and fundamental metrics of phylogenetic structure \n\nSoftware for tree expansion exercises; randtip\, PhyloMaker\nAn overview of the fundamental metrics of phylogenetic structure. Null models.\n\n  \n			\n				\n				\n				\n				\n				Wednesday 20th\n				Classes from 8:00 to 13:00 CET \nDAY 2 \nSpatial Phylogenetics \n\nCanonical analysis of neo- and paleo- endemism. Metrics\, rationale\, workflow\, and implementation.\n\n			\n				\n				\n				\n				\n				Thursday 21st\n				Classes from 8:00 to 13:00 CET \nDAY 3 \nPhylogenetic Species Distribution Models \n\nPutting phylogenies in the geography: the imprints of evolutionary relationships in distribution models.\nCombining phylogenies with co-occurrence to infer spatial phylogenetic predictors.\nFitting\, evaluating and interpreting Phylogenetic-SDMs.\n\n			\n				\n				\n				\n				\n				Friday 22nd\n				Classes from 8:00 to 13:00 CET \nDAY 4 \nBeyond PGLS – Bayes and more \n\nMost common phylogenetic modelling approaches: PGLS\nPGLMM\nThe phylogenetic mixed model (PMM) in a Bayesian framework\n\n			\n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Rafael Molina Venegas \nThe scientific career of Rafael Molina Venegas revolves around three research lines pertaining to (1) the ecological and evolutionary mechanisms that jointly shape species assemblages at the community and macroecological scales\, (2) the development\, improvement\, and assessment of phylogenetic methods\, and (3) the links between biodiversity and human well-being. While these lines represent clearly differentiated research interests\, phylogenetics is a cross-cutting background for all of them. Considering that plants are his true passion in science\, he defines himself as a Phylogenetic Plant Ecologist. I personal page can be found here \nResearchGateGoogleScholar \n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Morales Castilla Ignacio \nDr. Morales-Castilla is a biogeographer and macroecologist interested in the spatial-temporal distribution of biodiversity. His research program aims to: (1) disentangle the relative roles of evolution and ecology as drivers of community structure\, (2) understand how different aspects of the species’ niches are evolutionarily conserved and\, (3) enhance models of biotic interactions and/or species distributions by integrating phylogenetic\, functional and geographic information. You can check his publication record at the links provided above. You can find hiss homepage here \nResearchGateGoogleScholarORCIDGitHub
URL:https://prstats.preprodw.com/course/an-introduction-to-spatial-eco-phylogenetics-and-comparative-methods-secm01/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time Zone\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/ECPH01R.png
GEO:53.1423672;-7.6920536
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20240312
DTEND;VALUE=DATE:20240315
DTSTAMP:20260419T022541
CREATED:20230915T125012Z
LAST-MODIFIED:20240118T153339Z
UID:10000437-1710201600-1710460799@prstats.preprodw.com
SUMMARY:CURSO ONLINE – Introdução a Modelos Mistos usando R e R Studio (IMMR08) Este curso será ministrado ao vivo
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Data do Evento \nTerça-feira\, 12th Março\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				FORMATO DO CURSO\nEste é um ‘CURSO AO VIVO’ – o instructor ministrará as aulas e treinará os participantes através de aulas práticas por meio de uma conexão por video; uma boa conexão com a internet é essencial. \nPROGRAMA\nFUSO HORÁRIO – Horário de Brasília – porém\, todas as sessões serão gravadas e disponibilizadas online\, permitindo que participantes de outros fusos horários também acompanhem. \nPor favor\, envie um email para oliverhooker@prstatistics.com para maiores detalhes\, ou para discutir como Podemos acomodá-lo(a). \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				DETALHES DO CURSO\n				\nEste curso fornece uma introdução teórica e prática a modelos mistos\, também conhecidos como modelos multi-nível ou hierárquicos. Nosso foco primário será em modelos lineares mistos\, porém também cobriremos modelos lineares generalizados mistos. Também descreveremos abordagens Bayesianas para modelos mistos. Começaremos com modelos de efeitos aleatórios. Esses modelos mostram\, com clareza\, como os modelos mistos são\, na verdade\, “modelos de modelos”. Também\, modelos de efeitos aleatórios servem como uma base sólida para auxiliar o entendimento de modelos mistos. Nós também trataremos de conceitos importantes relacionados a shrinkage\, ou “redução/encolhimento” dos efeitos aleatórios\, e correlação intraclasse. Então\, cobriremos modelos lineares mistos\, com foco particular em modelos de intercepto e/ou coeficientes angulares aleatórios. Depois\, cobriremos modelos mistos para dados com estrutura aninhada ou cruzada\, bem como preditores de nível de grupo. Então\, trataremos de modelos lineares generalizados mistos e como utilizar efeitos aleatórios a nível observacional para acomodar superdispersão. Por fim\, cobriremos uma breve introdução à abordagem Bayesiana por meio do pacote brms. \n\n			\n				\n				\n				\n				\n				PÚBLICO ALVO\n				\nEste curso tem como público alvo qualquer pessoa que estiver interessada em utilizar R para ciência de dados ou estatística. R é amplamente utilizado em todas as áreas da pesquisa científica\, bem como nos setores público e privado. \n\n			\n				\n				\n				\n				\n				LOCAL\n				Ministrado remotamente.\n			\n				\n				\n				\n				\n				NFORMAÇÃO DO CURSO\n				Fuso horário – Horário de Brasília \nDisponibilidade – A definir \nDuração – 3 x 1/2 dias \nHoras de contato – Aprox. 12 horas \nCréditos – Equivalente a 1 crédito \nIdioma – Português\n			\n				\n				\n				\n				\n				FORMATO DE ENSINO\n				Este curso será um workshop prático. Para cada tópico\, haverá uma apresentação estilo aula\, isto é\, utilizando slides ou lousa eletrônica\, para introduzir conceitos-chaves e teoria. Então\, apresentaremos como realizar as variadas análises estatísticas utilizando o R. Todo o código que o instrutor fornecerá durante as sessões será disponibilizado em um repositório público do GitHub após as sessões. \nNo início de cada dia\, nos certificaremos de que todos estão confortáveis com o uso do Zoom e discutiremos os procedimentos para fazer perguntas e postar comentários. \nEmbora não seja estritamente necessário\, utilizar um monitor grande (ou preferivelmente um segundo monitor) tornará a experiencia de aprendizado melhor\, porque você poderá ver meu R Studio e seu próprio R Studio simultaneamente. \nTodas as sessões serão gravadas e disponibilizadas imediatamente em um link protegido por senha. \nTodos os materiais\, como slides\, conjuntos de dados\, etc.\, serão compartilhados via GitHub. \n			\n				\n				\n				\n				\n				CONHECIMENTO QUANTITATIVO NECESSÁRIO\n				\nUm entendimento básico de conceitos estatísticos chaves. Especificamente\, modelos de regressão linear\, significância estatística e testes de hipóteses. \n\n			\n				\n				\n				\n				\n				CONHECIMENTO COMPUTACIONAL NECESSÁRIO\n				Familiaridade com o R. Importar/exportar dados\, manipular data frames\, ajustar modelos estatísticos básicos e gerar gráficos simples. \n			\n				\n				\n				\n				\n				REQUERIMENTOS DE EQUIPAMENTO E SOFTWARE\n				\nUm computador com o R e R Studio instalados é necessário. R e R Studio são ambos gratuitos e disponíveis para PC\, Mac e Linux.Participantes devem poder instalar softwares adicionais em seus computadores durante o curso (por favor\, certifique-se de que você tem direitos de administrador em seu computador).Um monitor grande e uma segunda tela\, embora não seja absolutamente necessário\, melhorará a experiência de aprendizado. Participantes também são encorajados a manter suas câmeras ligadas para aumentar a interação entre o instrutor e os demais participantes. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer). \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\n\nFaça o download do R \n\n\nFaça o download do RStudio \n\n\nFaça o download do Zoom \n\n\n\n  \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				POR FAVOR\, LEIA – POLÍTICA DE CANCELAMENTO \nCancelamentos são aceitos até 28 dias antes da data de início do curso e estão sujeitos a uma taxa de cancelamento de 25%. Cancelamentos após esse período podem ser considerados\, contate oliverhooker@pr<span class=”s1″>statistics</span>.com. Falha em participar do curso resultará no custo completo do curso sendo cobrado. No evento improvável de o curso ser cancelado devido a imprevistos\, um reembolso completo das taxas do curso será creditado. \n			\n				\n				\n				\n				\n				Se você estiver incerto em relação à adequabilidade do curso\, por favor entre em contato por email para saber mais oliverhooker@prstatistics.com \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PROGRAMA DO CURSO\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Terça-feira 12th\n				Aulas das 14:00 às 18:00 (Horário de Brasília) \nDIA 1 \n\nTópico 1: Modelos de efeitos aleatórios. A característica que define modelos mistos é o fato de que eles são “modelos de modelos”. Começaremos utilizando modelos binomiais de efeitos aleatórios para ilustrar esse conceito. Especificamente\, mostramos como modelos mistos são modelos da variabilidade em modelos de diferentes clusters\, ou grupos de dados. \n\n\nTópico 2: Modelo normal de efeitos aleatórios. Esses são modelos chaves para entender o modelo misto de uma maneira mais geral. Aqui\, cobriremos os conceitos estatísticos de shrinkage e de correlação intraclasse. \n\n			\n				\n				\n				\n				\n				Quarta-feira 13th\n				Aulas das 14:00 às 18:00 (Horário de Brasília) \nTópico 3: Modelo linear misto. Agora\, cobriremos os modelos lineares mistos. Lidamos\, especificamente\, com os casos de interceptos e/ou coeficientes angulares aleatórios. \nTópico 4: Modelos mistos para dados com estrutura aninhada. Aqui\, consideramos modelos para dados com estrutura aninhada\, isto é\, grupos de grupos. Como um exemplo\, aplicaremos modelos mistos a dados de estudantes dentro de classes dentro de escolas\, onde modelamos a variabilidade dos efeitos entre classes e entre escolas. \nTópico 5: Modelos mistos para dados com estrutura cruzada. Em alguns modelos mistos\, cada observação ocorre em múltiplos grupos\, que não estão aninhados. Por exemplo\, animais podem ser membros de diferentes grupos taxonômicos e em diferentes locais\, mas os grupos taxonômicos não são subconjuntos dos locais\, ou vice-versa. \n			\n				\n				\n				\n				\n				Quinta-feira 14th\n				Aulas das 14:00 às 18:00 (Horário de Brasília) \nTópico 6: Preditores a nível de grupo. Em alguns modelos mistos\, variáveis preditoras podem estar associadas a indivíduos ou a grupos. Nesta seção\, consideramos como lidar com essas duas situações. \nTópico 7: Modelos lineares generalizados mistos. Aqui\, estendemos o modelo linear misto para a família exponencial de distribuições e mostramos um exemplo usando o MLG misto Poisson. Também abordamos como acomodar superdispersão por meio de efeitos aleatórios a nível individual. \nTópico 8: Modelos mistos Bayesianos. Todos os modelos considerados podem ser ajustados utilizando a abordagem Bayesiana. Aqui\, fornecemos uma breve introdução a modelos Bayesianos e como ajustar os modelos mistos que consideramos durante o curso utilizando o pacote brms. \n			\n			\n				\n				\n				\n				\n				Instrutor do curso\n \nDr. Rafael De Andrade Moral \nRafael é Professor Associado de Estatística na Maynooth University\, Irlanda. Bacharel em Biologia e Doutor em Estatística pela Universidade de São Paulo\, Rafael tem interesse em ensino e pesquisa em modelagem estatística aplicada a ecologia\, manejo da fauna silvestre\, agricultura e ciências ambientais. Como diretor do grupo de pesquisa em ecologia teórica e estatística\, Rafael reúne uma comunidade de pesquisadores que utilizam ferramentas matemáticas e estatísticas para melhor compreenderem o mundo natural. Como uma estratégia de ensino alternativa\, Rafael vem produzindo vídeos musicais e paródias para promover a Estatística nas mídias sociais e na sala de aula. Sua página pessoal pode ser encontrada aqui. \nResearchGateGoogleScholarORCIDGitHub
URL:https://prstats.preprodw.com/course/introducao-a-modelos-mistos-usando-r-e-r-studio-immr08/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2023/09/Screenshot-2023-09-15-at-13.59.26.png
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240220
DTEND;VALUE=DATE:20240223
DTSTAMP:20260419T022541
CREATED:20230829T210013Z
LAST-MODIFIED:20240118T152938Z
UID:10000436-1708387200-1708646399@prstats.preprodw.com
SUMMARY:CURSO ONLINE – Introdução a Modelos Lineares Generalizados usando R e R Studio (IGLM07) Este curso será ministrado ao vivo
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Data do Evento \nTerça-feira\, 20th Fevereiro\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				FORMATO DO CURSO\nEste é um ‘CURSO AO VIVO’ – o instructor ministrará as aulas e treinará os participantes através de aulas práticas por meio de uma conexão por video; uma boa conexão com a internet é essencial. \nPROGRAMA\nFUSO HORÁRIO – Horário de Brasília – porém\, todas as sessões serão gravadas e disponibilizadas online\, permitindo que participantes de outros fusos horários também acompanhem. \nPor favor\, envie um email para oliverhooker@prstatistics.com para maiores detalhes\, ou para discutir como Podemos acomodá-lo(a). \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				DETALHES DO CURSO\n				Este curso fornece uma introdução teórica e prática aos modelos lineares generalizados usando o R. Modelos lineares generalizados (MLGs) são generalizações de modelos de regressão linear para situações em que a variável resposta é\, por exemplo\, binária\, ou categórica\, ou de contagem\, etc. Os modelos específicos que apresentaremos incluem regressão logística binária\, binomial e categórica\, regressão Poisson e binomial negativa para variáveis de contagem. Também apresentaremos modelos de regressão de Poisson e binomial negativo inflacionados de zeros. Começaremos com uma breve recapitulação do modelo linear normal. Entender esse modelo é vital para um entendimento apropriado de como ele pode ser generalizado na teoria dos MLGs. Depois\, introduziremos o modelo de regressão logística binário amplamente utilizado\, que é um modelo de regressão para quando a variável resposta é binária. Depois\, apresentamos o caso da regressão logística binomial (duas categorias)\, e por fim multinomial\, para modelar respostas politômicas\, isto é\, que podem integrar mais de duas categorias. Depois apresentaremos a regressão Poisson\, que é amplamente utilizada para modelar variáveis respostas de contagem (isto é\, o número de vezes que algo aconteceu). Depois apresentaremos modelos de superdispersão\, que acomodam uma variabilidade maior do que a esperada pelos modelos de Poisson e binomial. Apresentaremos os modelos de quase-verossimilhança\, binomial negativo e beta-binomial\, para dados de contagens e proporções discretas\, respectivamente. Por fim\, apresentaremos modelos de Poisson e binomial negativo inflacionados de zeros\, para dados de contagem com um excesso de observações nulas.\n			\n				\n				\n				\n				\n				PÚBLICO ALVO\n				Este curso tem como público alvo qualquer pessoa que estiver interessada em utilizar R para ciência de dados ou estatística. R é amplamente utilizado em todas as áreas da pesquisa científica\, bem como nos setores público e privado.\n			\n				\n				\n				\n				\n				LOCAL\n				Ministrado remotamente.\n			\n				\n				\n				\n				\n				NFORMAÇÃO DO CURSO\n				Fuso horário – Horário de Brasília \nDisponibilidade – A definir \nDuração – 3 x 1/2 dias \nHoras de contato – Aprox. 12 horas \nCréditos – Equivalente a 1 crédito \nIdioma – Português\n			\n				\n				\n				\n				\n				FORMATO DE ENSINO\n				Este curso será um workshop prático. Para cada tópico\, haverá uma apresentação estilo aula\, isto é\, utilizando slides ou lousa eletrônica\, para introduzir conceitos-chaves e teoria. Então\, apresentaremos como realizar as variadas análises estatísticas utilizando o R. Todo o código que o instrutor fornecerá durante as sessões será disponibilizado em um repositório público do GitHub após as sessões. \nNo início de cada dia\, nos certificaremos de que todos estão confortáveis com o uso do Zoom e discutiremos os procedimentos para fazer perguntas e postar comentários. \nEmbora não seja estritamente necessário\, utilizar um monitor grande (ou preferivelmente um segundo monitor) tornará a experiencia de aprendizado melhor\, porque você poderá ver meu R Studio e seu próprio R Studio simultaneamente. \nTodas as sessões serão gravadas e disponibilizadas imediatamente em um link protegido por senha.  \nTodos os materiais\, como slides\, conjuntos de dados\, etc.\, serão compartilhados via GitHub.\n			\n				\n				\n				\n				\n				CONHECIMENTO QUANTITATIVO NECESSÁRIO\n				Um entendimento básico de conceitos estatísticos chaves. Especificamente\, modelos de regressão linear\, significância estatística e testes de hipóteses.\n			\n				\n				\n				\n				\n				CONHECIMENTO COMPUTACIONAL NECESSÁRIO\n				Familiaridade com o R. Importar/exportar dados\, manipular data frames\, ajustar modelos estatísticos básicos e gerar gráficos simples.\n			\n				\n				\n				\n				\n				REQUERIMENTOS DE EQUIPAMENTO E SOFTWARE\n				\nUm computador com o R e R Studio instalados é necessário. R e R Studio são ambos gratuitos e disponíveis para PC\, Mac e Linux.\nParticipantes devem poder instalar softwares adicionais em seus computadores durante o curso (por favor\, certifique-se de que você tem direitos de administrador em seu computador).\nUm monitor grande e uma segunda tela\, embora não seja absolutamente necessário\, melhorará a experiência de aprendizado. Participantes também são encorajados a manter suas câmeras ligadas para aumentar a interação entre o instrutor e os demais participantes. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer). \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				POR FAVOR\, LEIA – POLÍTICA DE CANCELAMENTO \nCancelamentos são aceitos até 28 dias antes da data de início do curso e estão sujeitos a uma taxa de cancelamento de 25%. Cancelamentos após esse período podem ser considerados\, contate oliverhooker@pr<span class=”s1″>statistics</span>.com. Falha em participar do curso resultará no custo completo do curso sendo cobrado. No evento improvável de o curso ser cancelado devido a imprevistos\, um reembolso completo das taxas do curso será creditado. \n			\n				\n				\n				\n				\n				Se você estiver incerto em relação à adequabilidade do curso\, por favor entre em contato por email para saber mais oliverhooker@prstatistics.com \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PROGRAMA DO CURSO\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Terça-feira 20th\n				Aulas das 14:00 às 18:00 (Horário de Brasília) \nDIA 1 \nTópico 1: O modelo linear geral. Começamos com uma recapitulação do modelo normal\, incluindo uso de variáveis preditoras. Embora esse modelo não seja o foco do curso\, é o pilar central no qual os modelos lineares generalizados estão baseados e\, portanto\, deve ser compreendido para que haja entendimento dos modelos lineares generalizados (MLGs). \nTópico 2: Regressão logística binária. Nosso primeiro MLG é o de regressão logística binária (ou Bernoulli)\, a ser utilizado para modelar respostas binárias. Apresentaremos o modelo teórico por trás da regressão logística\, implementaremos utilizando a função glm do R e mostraremos como interpretar os resultados\, calcular predições e comparar modelos encaixados. \nTópico 3: Regressão logística binomial. Aqui\, mostramos como a regressão logística para variáveis binarias pode ser estendida para lidar com dados que consistem de proporções discretas. Também apresentaremos funções de ligação alternativas ao logito\, como a probito e complemento log-log. \n			\n				\n				\n				\n				\n				Quarta-feira 21st\n				Aulas das 14:00 às 18:00 (Horário de Brasília) \nTópico 4: Regressão logística categórica. Também conhecida como regressão multinomial\, é utilizada pra modelar dados politômicos\, isto é\, dados que assumem mais do que duas categorias distintas. Assim como a regressão logística ordinal\, a regressão logística categórica também se baseia em uma extensão do caso de regressão logística binária. \nTópico 5: Regressão Poisson. A regressão Poisson é uma técnica amplamente utilizada para modelar dados de contagem\, isto é\, dados em que a variável resposta denota o número de vezes que um evento ocorreu. \n			\n				\n				\n				\n				\n				Quinta-feira 22nd\n				Aulas das 14:00 às 18:00 (Horário de Brasília) \nTópico 6: Modelos de superdispersão. A abordagem de quase-verossimilhança para os modelos de Poisson e binomial. Regressão binomial negativa. O modelo binomial negativo é\, assim como o modelo de regressão Poisson\, utilizado para dados de contagem\, mas é menos restritivo do que o modelo de Poisson\, especificamente por lidar com dados superdispersos. Regressão beta-binomial. O modelo beta-binomial é uma alternativa ao modelo binomial que acomoda superdispersão. \nTópico 7: Modelos inflacionados de zeros. Dados de contagens inflacionados de zeros apresentam um número excessivo de contagens nulas quando modelados utilizando um modelo de Poisson on binomial negativo. Os modelos de Poisson ou binomial negativo inflacionados de zeros são exemplos de modelos de variáveis latentes. \n			\n			\n				\n				\n				\n				\n				Instrutor do curso\n \nDr. Rafael De Andrade Moral \nRafael é Professor Associado de Estatística na Maynooth University\, Irlanda. Bacharel em Biologia e Doutor em Estatística pela Universidade de São Paulo\, Rafael tem interesse em ensino e pesquisa em modelagem estatística aplicada a ecologia\, manejo da fauna silvestre\, agricultura e ciências ambientais. Como diretor do grupo de pesquisa em ecologia teórica e estatística\, Rafael reúne uma comunidade de pesquisadores que utilizam ferramentas matemáticas e estatísticas para melhor compreenderem o mundo natural. Como uma estratégia de ensino alternativa\, Rafael vem produzindo vídeos musicais e paródias para promover a Estatística nas mídias sociais e na sala de aula. Sua página pessoal pode ser encontrada aqui. \nResearchGateGoogleScholarORCIDGitHub
URL:https://prstats.preprodw.com/course/curso-online-introducao-a-modelos-lineares-generalizados-usando-r-e-r-studio-iglm07/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/IGLM04R.png
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240220
DTEND;VALUE=DATE:20240223
DTSTAMP:20260419T022541
CREATED:20200804T125230Z
LAST-MODIFIED:20240222T142952Z
UID:10000313-1708387200-1708646399@prstats.preprodw.com
SUMMARY:ONLINE COURSE – Data visualization with ggplot2 using R and Rstudio (DVGG04) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nTuesday\, March 26th\, 2023\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE FORMAT\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCOURSE PROGRAM\nTIME ZONE – Central Time Zone – however all sessions will be recorded and made available allowing attendees from different time zones to follow. \nPlease email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you. \n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				During this course we provide a comprehensive introduction to data visualization in R using ggplot. We begin by providing a brief overview of the general principles data visualization\, and an overview of the general principles behind ggplot. We then proceed to cover the major types of plots for visualizing distributions of univariate data: histograms\, density plots\, barplots\, and Tukey boxplots. In all of these cases\, we will consider how to visualize multiple distributions simultaneously on the same plot using different colours and “facet” plots. We then turn to the visualization of bivariate data using scatterplots. Here\, we will explore how to apply linear and nonlinear smoothing functions to the data\, how to add marginal histograms to the scatterplot\, add labels to points\, and scale each point by the value of a third variable. We then cover some additional plot types that are often related but not identical to those major types covered during the beginning of the course: frequency polygons\, area plots\, line plots\, uncertainty plots\, violin plots\, and geospatial mapping. We then consider more fine grained control of the plot by changing axis scales\, axis labels\, axis tick points\, colour palettes\, and ggplot “themes”. Finally\, we consider how to make plots for presentations and publications. Here\, we will introduce how to insert plots into documents using RMarkdown\, and also how to create labelled grids of subplots of the kind seen in many published articles. \n			\n				\n				\n				\n				\n				Intended Audiences\n				This course is aimed at anyone who is interested in using R for data science or statistics. R is widely used in all areas of academic scientific research\, and also widely throughout the public\, and private sector. \n  \n			\n				\n				\n				\n				\n				Venue\n				Delivered remotely \n			\n				\n				\n				\n				\n				Course Information\n				Time zone – GMT+1 \nAvailability – TBC \nDuration – 2 days \nContact hours – Approx. 15 hours \nECT’s – Equal to 1 ECT’s \nLanguage – English \n			\n				\n				\n				\n				\n				Teaching Format\n				\n\nThis course will be largely practical\, hands-on\, and workshop based. For each topic\, there will first be some lecture style presentation\, i.e.\, using slides or blackboard\, to introduce and explain key concepts and theories. Then\, we will cover how to perform the various statistical analyses using R. Any code that the instructor produces during these sessions will be uploaded to a publicly available GitHub site after each session. For the breaks between sessions\, and between days\, optional exercises will be provided. Solutions to these exercises and brief discussions of them will take place after each break. \n\n\n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				None needed. \n			\n				\n				\n				\n				\n				Assumed computer background\n				Some familiarity with R. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\n\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. \n\n\n\n\n\nParticipants should be able to install additional software on their own computer during the course (please make sure you have administration rights to your computer).  \n\n\n\n\n\n\nA large monitor and a second screen\, although not absolutely necessary\, could improve the learning experience. Participants are also encouraged to keep their webcam active to increase the interaction with the instructor and other students. \n\n\n\n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n \n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited. \n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more oliverhooker@prstatistics.com \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				COURSE PROGRAMME\n\nTuesday 26th \nClasses from 12:00 to 16:00 (Central Time Zone) \nDAY 1 \nTopic 1: What is data visualization. Data visualization is a means to explore and understand our data and should be a major part of any data analysis. Here\, we briefly discuss why data visualization is so important and what the major principles behind it are. \nTopic 2: Introducing ggplot. Though there are many options for visualization in R\, ggplot is simply the best. Here\, we briefly introduce the major principles behind how ggplot works\, namely how it is a layered grammar ofgraphics. \nWednesday 27th \nClasses from 12:00 to 16:00 (Central Time Zone) \nDAY 2 \n\nTopic 3: Visualizing univariate data. Here\, we cover a set of major tools for visualizing distributions over single variables: histograms\, density plots\, barplots\, Tukey boxplots. In each case\, we will explore how to plot multiple groups of data simultaneously using different colours and also using facet plots. \nTopic 4: Scatterplots. Scatterplots and their variants are used to visualize bivariate data. Here\, in addition to covering how to visualize multiple groups using colours and facets\, we will also cover how to provide marginal plots on the scatterplots\, labels to points\, and how to obtain linear and nonlinear smoothing of the plots. \nTopic 5: More plot types. Having already covered the most widely used general purpose plots on Day 1\, we now turn to cover a range of other major plot types: frequency polygons\, area plots\, line plots\, uncertainty plots\, violin plots\, and geospatial mapping. Each of these are important and widely used types of plots\, and knowing them will expand your repertoire. \n\nThursday 28th \nClasses from 12:00 to 16:00 (Central Time Zone) \nDAY 3 \nTopic 6: Fine control of plots. Thus far\, we will have mostly used the default for the plot styles and layouts. Here\, we will introduce how to modify things like the limits and scales on the axes\, the positions and nature of the axis ticks\, the colour palettes that are used\, and the different types of ggplot themes that are available. \nTopic 7: Plots for publications and presentations: Thus far\, we have primarily focused on data visualization as a means of interactively exploring data. Often\, however\, we also want to present our plots in\, for example\, published articles or in slide presentations. It is simple to save a plot in different file formats\, and then insert them into a document. However\, a much more efficient way of doing this is to use RMarkdown to run the R code and automatically insert the resulting figure into a\, for example\, Word document\, pdf document\, html page\, etc. In addition\, here we will also cover how to make labelled grids of subplots like those found in many scientific articles. \n\n  \n			\n				\n				\n				\n				\n				Course Instructor\n \nDr. Rafael De Andrade Moral \n\nRafael is an Associate Professor of Statistics at Maynooth University\, Ireland. With a background in Biology and a PhD in Statistics from the University of São Paulo\, Rafael has a deep passion for teaching and conducting research in statistical modelling applied to Ecology\, Wildlife Management\, Agriculture\, and Environmental Science. As director of the Theoretical and Statistical Ecology Group\, Rafael brings together a community of researchers who use mathematical and statistical tools to better understand the natural world. As an alternative teaching strategy\, Rafael has been producing music videos and parodies to promote Statistics in social media and in the classroom. His personal webpage can be found here\n\nResearchGateGoogleScholarORCIDGitHub \n 
URL:https://prstats.preprodw.com/course/data-visualization-with-ggplot2-using-r-and-rstudio-dvgg04/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2022/02/DVGG02.png
GEO:55.378051;-3.435973
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240129
DTEND;VALUE=DATE:20240203
DTSTAMP:20260419T022542
CREATED:20230919T155938Z
LAST-MODIFIED:20231204T164859Z
UID:10000438-1706486400-1706918399@prstats.preprodw.com
SUMMARY:ONLINE COURSE - Spatial and Spatial-Temporal Modelling Using R-INLA (SSTM01) This course will be delivered live
DESCRIPTION:ONLINE COURSE – Phylogenetic Species Distribution Modelling using R (PSDM01) This course will be delivered live\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Event Date \nMonday\, January 29th\, 2024\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n					\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n				\n					\n						\n						\n							\n							\n						\n					\n				\n				\n				\n				\n			\n			\n				\n				\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Format\nThis is a ‘LIVE COURSE’ – the instructor will be delivering lectures and coaching attendees through the accompanying computer practical’s via video link\, a good internet connection is essential. \nCourse Program\nTIME ZONE – UTC+2 – however all sessions will be recorded and made available allowing attendees from different time zones to follow a day behind with an additional 1/2 days support after the official course finish date (please email oliverhooker@prstatistics.com for full details or to discuss how we can accommodate you).\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Details\n				The aim of the course is to introduce you to Bayesian inference using the integrated nested Laplace approximation (INLA) method and its associated R-INLA package for the analysis of spatial and spatio-temporal data. This course will cover the basics on the INLA methodology as well as practical modelling of different types of spatial and spatio-temporaldata. \nBy the end of the course participants should: \n\nKnow the different types of spatial and spatio-temporal data available and how to work with them in R.\nKnow the different modelling approaches for spatial and spatio-temporal data.\nKnow how to visualize and produce maps of spatial and spatio-temporal data.\nBe able to fit models with the R-INLA package.\nKnow how to interpret the output from model fitting.\nBe confident with the use of INLA for data analysis.\nUnderstand the different models that can be fit with INLA to spatial and spatio-temporal data.\nKnow how to define the different parts of a model with INLA.\nHave the confidence to use INLA for their own projects.\n\n			\n				\n				\n				\n				\n				Intended Audiences\n				Academics and post-graduate students working on projects related to spatial and spatio-temporal data analysis and modelling and who want to add the INLA methodology for Bayesian inference to their toolbox. \nApplied researchers and analysts in public\, private or third-sector organizations who need the reproducibility\, speed and flexibility of a command-line language such as R. \nThe course is designed for intermediate-to-advanced R users interested in data analysis and modelling. Ideally\, they should have some background on probability\, statistics and data analysis. \n			\n				\n				\n				\n				\n				Venue\n				Venue – Delivered remotely\n			\n				\n				\n				\n				\n				Course Information\n				Time zone – Central European Standard Time (CEST) \nAvailability – 20 places \nDuration – 5 days \nContact hours – Approx. 35 hours \nECT’s – Equal to 3 ECT’s \nLanguage – English \n  \nPLEASE READ – CANCELLATION POLICY: Cancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				Teaching Format\n				\n\nhe course will be a mixture of theoretical and practical sessions. Each concept will be first described and explained\, and next there will be a time to exercise the topics using provided data sets. Participants are also very welcome to bring their own data. \nAssumed quantitative knowledge \nThe course is designed for intermediate-to-advanced R users interested in Bayesian inference for data analysis and R beginners who have prior experience with Bayesian inference. \nAssumed computer background \nAttendees should already have experience with R and be familiar with data from different formats (csv\, tab\, etc.)\, create simple plots\, and manipulate data frames. Furthermore\, knowledge of how to fit generalized linear (mixed) models using typical R functions (such as glm and lme4) will be useful. \nEquipment and software requirements \nA laptop/personal computer with any operating system (Linux\, Windows\, MacOS) and with recent versions of R (https://cran.r-project.org) and RStudio (https://www.rstudio.com) installed; both are freely available as open-source software. You will be sent a list of packages prior to the course. It is essential that you come with all necessary software and packages already installed. \nhttps://cran.r-project.org/ \nDownload RStudio \nUNSURE ABOUT SUITABLILITY THEN PLEASE ASK oliverhooker@prstatistics.com \n\n\n			\n				\n				\n				\n				\n				Assumed quantitative knowledge\n				Although an introduction to the INLA method will be given\, attendants are expected to be familiar with Bayesian inference. This includes how to define simple Bayesian models and have a basic understanding of some typical methods to compute or approximate the prior distributions (such as models with conjugate priors\, MCMC methods\, etc.). \n			\n				\n				\n				\n				\n				Assumed computer background\n				Attendants are expected to be familiar with the R programming environment for data analysis. No previous background on handling of spatial and spatio-temporal data will be assumed. \n			\n				\n				\n				\n				\n				Equipment and software requirements\n				\nA laptop computer with a working version of R or RStudio is required. R and RStudio are both available as free and open source software for PCs\, Macs\, and Linux computers. R may be downloaded by following the links here https://www.r-project.org/. RStudio may be downloaded by following the links here: https://www.rstudio.com/. \n\n\nAll the R packages that we will use in this course will be possible to download and install during the workshop itself as and when they are needed\, and a full list of required packages will be made available to all attendees prior to the course. \n\n\nA working webcam is desirable for enhanced interactivity during the live sessions\, we encourage attendees to keep their cameras on during live zoom sessions. \n\n\nAlthough not strictly required\, using a large monitor or preferably even a second monitor will improve he learning experience \n\n\nDownload R \n\n\nDownload RStudio \n\n\nDownload Zoom \n\n			\n			\n			\n				\n				\n				\n				\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				\n	\n		Tickets	\n	\n	\n	\n	\n	\n	\n		The numbers below include tickets for this event already in your cart. Clicking "Get Tickets" will allow you to edit any existing attendee information as well as change ticket quantities.	\n\n\n\n	\n	Tickets are no longer available\n\n\n	\n		\n		\n		\n	\n\n\n\n\n\n	\n\n\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				PLEASE READ – CANCELLATION POLICY \nCancellations are accepted up to 28 days before the course start date subject to a 25% cancellation fee. Cancellations later than this may be considered\, contact oliverhooker@prstatistics.com. Failure to attend will result in the full cost of the course being charged. In the unfortunate event that a course is cancelled due to unforeseen circumstances a full refund of the course fees will be credited.\n			\n				\n				\n				\n				\n				If you are unsure about course suitability\, please get in touch by email to find out more \noliverhooker@prstatistics.com \n			\n			\n				\n				\n				\n				\n			\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Course Programme\n			\n				\n				\n				\n				\n				\n				\n				\n				\n				\n				Monday 29th\n				Classes from 14:00 to 21:00 CET \nDAY 1 \nLECTURE 1 – Intro to INLA \nPRACTICAL 1 – Intro to INLA \nLECTURE 2 – Model fitting with INLA \nPRACTICAL 2 – Model fitting with INLA \nLECTURE 3 – GLMM’s with INLA \nPRACTICAL 3 – GLMM’s with INLA \nQ and A and end of day summary \n			\n				\n				\n				\n				\n				Tuesday 30th\n				Classes from 14:00 to 21:00 CET \nDAY 2 \nLECTURE 4 – Spatial Data \nPRACTICAL 4 – Spatial Data \nLECTURE 5 – Spatio-Temporal Data \nPRACTICAL 5 – Spatio-Temporal Data \nLECTURE 6 – Advanced Visualisation \nPRACTICAL 6 – Advanced Visualisation \nQ and A and end of day summary \n			\n				\n				\n				\n				\n				Wednesday 31st\n				Classes from 14:00 to 21:00 CET \nDAY 3 \nLECTURE 7 – Spatial Models for Lattice Data \nPRACTICAL 7 – Spatial Models for Lattice Data \nLECTURE 8 – Spatial Models for Continuous Data \nPRACTICAL 8 – Spatial Models for Continuous Data \nLECTURE 9 – Spatial Models for Point Patterns \nPRACTICAL 9 – Spatial Models for Point Patterns \nQ and A and end of day summary \n			\n				\n				\n				\n				\n				Thursday 1st\n				Classes from 14:00 to 21:00 CET \nDAY 4 \nLECTURE 10 – Spatio-Temporal Models for Lattice Data \nPRACTICAL 10 – Spatio-Temporal Models for Lattice Data \nLECTURE 11 – Spatio-Temporal Models  for Continuous Data \nPRACTICAL 11 – Spatio-Temporal Models  for Continuous Data \nLECTURE 12 – Spatio-Temporal Models  for Point Patterns \nPRACTICAL 12 – Spatio-Temporal Models  for Point Patterns \nQ and A and end of day summary \n			\n				\n				\n				\n				\n				Friday 2nd\n				Classes from 14:00 to 21:00 CET \nDAY 5 \nCase studies\, own data and problem solving. \n			\n			\n				\n				\n				\n				\n				\n				\n					Dr Virgillio Gomez Rubio\n					\n					Virgilio has ample experience in Bayesian inference and statistical modeling as well as developing packages for the R programming language. His book Bayesian inference with INLA has been widely adopted for Bayesian modeling and it has been awarded the 2022 SEIO-BBVA Foundation Award in the category of Data Science and Big Data. You can find more information about him on here\n \n\nResearchgate\nGoogle Scholar\nORCID\nGitHub
URL:https://prstats.preprodw.com/course/spatial-and-spatial-temporal-modelling-using-r-inla-sstm01/
LOCATION:Delivered remotely (United Kingdom)\, Western European Time\, United Kingdom
CATEGORIES:All Live Courses,Home Courses,Live Online Courses
ATTACH;FMTTYPE=image/png:https://prstats.preprodw.com/wp-content/uploads/2023/09/Screenshot-2023-09-20-at-14.21.47.png
GEO:55.378051;-3.435973
END:VEVENT
END:VCALENDAR