Module overview
This module aims to introduce students to a wide range of statistical models grouped by the unifying theory of generalized linear models: linear, logistic, multinomial, cumulative ordinal and Poisson regression, as well as log-linear models are presented, with emphasis on the underpinning theory and practical examples. Students are also exposed to the basic foundations of estimation for GLMs.
Aims and Objectives
Learning Outcomes
Learning Outcomes
Having successfully completed this module you will be able to:
- Understand the foundation theory of generalised linear models.
- Use models to describe the relationship between a response and a set of explanatory variables.
- Use a range of popular statistical models for continuous and categorical data.
- Summarise data with an appropriate statistical model.
- Use the statistical software package R to fit statistical models.
- Interpret the results of the modelling.
Syllabus
The module is divided in five parts as explained below:
Section 1. Introduction:
Review of statistical modelling, linear regression, deviance, model checking and regression diagnostics.
Section 2. Foundations of GLMs:
Foundations of generalised linear models, the exponential family of distributions and its properties, maximum likelihood estimation, score functions and information, the Newton-Raphson and Fisher scoring algorithms.
Section 3. Categorical and Ordinal Responses and Logistic Regression:
One-way contingency tables, two-way contingency tables, measures of association, odds ratios and properties of odds ratios, binary logistic regression, multinomial logistic regression, ordinal logistic regression, maximum likelihood estimation, deviance, residual analysis and model selection.
Section 4. Poisson Regression and Log-linear Models:
Models for count data, Poisson regression, log-linear models for rates, offset terms, log-linear models for multi-way contingency tables, Simpson’s paradox, residual analysis, model selection, deviance and likelihood ratio tests.
Part 5. Overdispersion in GLMs:
Detecting overdispersion, handling overdispersion, quasi-likelihood approach, two-stage generation process, testing for overdispersion.
Learning and Teaching
Teaching and learning methods
Teaching will be through a combination of lectures, computer workshops and tutorials. Learning activities will include learning in lectures, which will cover explanations of the statistical modelling techniques and their use, as well as by independent study. The computer workshops will provide hands-on experience of the analysis of data and the application of the techniques introduced in the lectures, enabling you to undertake the statistical computing element of the coursework assignment.
Exercises on the theory will be discussed in the tutorials.
Type | Hours |
---|---|
Teaching | 40 |
Independent Study | 110 |
Total study time | 150 |
Resources & Reading list
General Resources
Software requirements. You will require access to R, which is available on the University’s workstations and can be downloaded to your own computer for use with your studies.
Textbooks
Agresti, A. (2015). Foundations of Linear and Generalized Linear Models. Wiley.
James, G., Witten, D., Hastie, H. and Tibshirani, R. (2021). An Introduction to Statistical Learning with Applications in R. New York: Springer.
Fox, J. (2016). Applied Regression Analysis, Linear Models and Generalized Linear Methods. Sage Publications.
Dobson, A.J. and Barnett, A.G. (2008). An Introduction to Generalized Linear Modules. CRC Press.
Fox, J. and Sandford, W. (2019). An R Companion to Applied Regression. Sage Publications.
Faraway, J.J. (2016). Extending the Linear Model with R: Generalized Linear, Mixed Effects and Nonparametric Regression Models. CRC Press.
Agresti, A. (2013). Categorical Data Analysis. Wiley.
Faraway, J.J. (2015). Linear Models with R. CRC Press.
Agresti, A. (2019). An Introduction to Categorical Data Analysis. Wiley.
Assessment
Assessment strategy
There will be opportunities to evaluate your progress through formative assessment. The summative module assessment will consist of a piece of individual coursework and a two-hour exam. Each of these will be worth 50% of the overall mark.
Summative
This is how we’ll formally assess what you have learned in this module.
Method | Percentage contribution |
---|---|
Closed book Examination | 50% |
Coursework | 50% |
Referral
This is how we’ll assess you if you don’t meet the criteria to pass this module.
Method | Percentage contribution |
---|---|
Closed book Examination | 50% |
Coursework | 50% |
Repeat Information
Repeat type: Internal & External