Extreme Values and Financial Risk
|Unit level:||Level 3|
|Teaching period(s):||Semester 1|
|Offered by||School of Mathematics|
|Available as a free choice unit?:||N
- MATH38001 - Statistical Inference (Compulsory)
- MATH20802 - Statistical Methods (Compulsory)
Additional RequirementsPlease note.
Students are not permitted to take more than one of MATH38181 or MATH48181 for credit in the same or different undergraduate year.
Students are not permitted to take MATH48181 and MATH68181 for credit in an undergraduate programme and then a postgraduate programme.
Note that MATH68181 is an example of an enhanced level 3 module as it includes all the material from MATH38181
When a student has taken level 3 modules which are enhanced to produce level 6 modules on an MSc programme taken within the School of Mathematics, then they are limited to a maximum of two such modules (with no alternative arrangements available otherwise)
To introduce probabilistic fundamentals and some statistical models in extreme value theory with applications to finance.
The course will give some probabilistic and statistical details of univariate and bivariate extreme value theory. The topics covered will include: fundamental of univariate extreme value theory, the three extreme value distributions, various models for univariate extremes, fundamentals of bivariate extreme value theory, and various models for bivariate extremes. The course will contain a great deal material on applications of the models to finance. Software in R will be used.
Teaching and learning methods
Three lectures and one example class each week. In addition students are expected to do at least four hours private study each week on this course unit.
On successful completion of this unit students will be able to:
- Be able to construct the extreme value law given a univariate distribution;
- choose and fit appropriate extreme value models for a given data (univariate);
- calculate probabilities associated with total portfolio loss, maximum portfolio loss and minimum portfolio loss;
- estimate financial risk measures.
- Other - 20%
- Written exam - 80%
Assessment Further Information
- In class test, weighting within unit 20%;
- Two hours end of semester examination; weighting within unit 80%.
I plan to cover all of the following topics:
- Fluctuations of univariate maxima: the theory 
- Fluctuations of univariate upper order statistics: the theory 
- Some statistical models for univariate extremes 
- Real data applications for univariate extremes using the R software 
- Portfolio theory 
- Real data applications 
- Financial risk measures and their estimation 
- Real data applications 
- Models for stock returns 
- Real data applications .
- Embrechts, P., Klüppelberg, C. and Mikosch, T. (1997) Modelling Extremal Events: for Insurance and Finance, Springer-Verlag, Berlin.
- Leadbetter, M.R., Lindgren, G. and Rootz_en, H. (1983) Extremes and Related Properties of Random Sequences and Processes, Springer-Verlag, Berlin.
- Resnick, S.I. (1987) Extreme values, Regular Variation and Point Processes, Springer-Verlag, Berlin.
- Coles S. (2001) An Introduction to Statistical Modelling of Extreme Values, Springer-Verlag, London.
- Kotz, S. and Nadarajah, S. (2000) Extreme Value Distributions: Theory and Applications, Imperial College Press, London.
Feedback tutorials will provide an opportunity for students' work to be discussed and provide feedback on their understanding. The in-class test also provides an opportunity for students to receive feedback. Students can also get feedback on their understanding directly from the lecturer, for example during the lecturer's office hour.
- Lectures - 33 hours
- Tutorials - 11 hours
- Independent study hours - 56 hours