|Assessment length / details
|2 Hours Semester Exam (Written Examination)
|2 Hours Supplementary Exam (Written Examination)
On successful completion of this module students should be able to:
Set up mathematical models for modeling random systems over time (stochastic process modeling).
Apply probability and stochastic process theory to model financial models
Analyse and synthesise mathematical models of financial markets.
Stochastic Modelling of financial markets.
The module builds on probability and stochastic processes to introduce continuous time stochastic processes aimed at modelling the stock exchange. We aim to derive the Black-Scholes model of arbitrage option pricing.
Binomial branch/tree models
Binomial Representation theorem
The Wiener Process
The Black-Scholes model
|Application of Number
|throughout the module.
|Students will be expected to submit written worksheet solutions.
|Improving own Learning and Performance
|Feedback via tutorials
|Indicative use of computational modeling stochastic processes.
|Personal Development and Career planning
|Students will be exposed to an area of application that they have not previously encountered.
|All situations considered are problem-based to a greater or lesser degree.
|Students will be encouraged to consult various books and journals for examples of application.
|Subject Specific Skills
|using probabilistic and stochastic techniques in financial modeling.
This module is at CQFW Level 6