# Postgraduate study
**Source**: https://www.gla.ac.uk/postgraduate/taught/advanced-statistics/?card=course&code=STATS5014
**Parent**: https://www.gla.ac.uk/postgraduate/taught/advanced-statistics/
[Postgraduate taught](https://www.gla.ac.uk/postgraduate/taught/)
# Advanced Statistics MSc
## Bayesian Statistics (Level M) STATS5014
- **Academic Session:** 2025-26
- **School:** School of Mathematics and Statistics
- **Credits:** 10
- **Level:** Level 5 (SCQF level 11)
- **Typically Offered:** Semester 2
- **Available to Visiting Students:** Yes
- **Collaborative Online International Learning:** No
- **Curriculum For Life:** No
### Short Description
This course introduces methods of modern Bayesian inference, with an emphasis on practical issues and applications.
### Timetable
16 lectures (1 or 2 each week)
4 1-hour tutorials
5, 2-hour computer-based practicals
### Excluded Courses
STATS4041 Bayesian Statistics
### Assessment
120-minute, end-of-course examination (100%)
**Main Assessment In:** April/May
### Course Aims
■ To develop the foundations of modern Bayesian statistics;
■ to demonstrate how prior distributions are updated to posterior distributions in simple statistical models;
■ to formulate, analyse and interpret hierarchical models, fitting them using either WinBUGS, Stan, or R;
■ to demonstrate how decision making is performed in Bayesian framework.
### Intended Learning Outcomes of Course
By the end of this course students will be able to:
■ Describe the rules for updating prior distributions in the presence of data, and for calculating posterior predictive distributions;
■ Derive posterior distributions corresponding to simple low-dimensional statistical models, typically, but not exclusively, with conjugate priors;
■ Describe and compute various summaries of the posterior distribution, including posterior mean, MAP estimate, posterior standard deviation and credible regions (including HPDRs) and the predictive distribution;
■ Explain different approaches to the choice of prior distribution;
■ Explain the role of hyperparameters in Bayesian inference, introduce them appropriately into statistical models and use the empirical Bayes approach for their determination;
■ Explain the use of independent simulation techniques for posterior sampling and apply them in simple contexts using R;
■ Formulate and analyse simple hierarchical models using Gibbs sampling in either WinBUGS, Stan, or R;
■ Describe and apply simple checks of mixing, and explain when mixing is likely to be poor;
■ Explain the role of decision theory in Bayesian analysis, formulate the decision process mathematically, and prove simple results.
### Minimum Requirement for Award of Credits
Students must submit at least 75% by weight of the components (including examinations) of the course's summative assessment.
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- [Programme overview](https://www.gla.ac.uk/postgraduate/taught/advanced-statistics/)
- [STATS5014 reading list](https://glasgow.rl.talis.com/courses/stats5014.html)