6 EC
Semester 1, period 1, 2
5374INRM6Y
| Owner | Master Mathematics |
| Coordinator | dr. A. Khedher |
| Part of | Master Mathematics, year 1Master Stochastics and Financial Mathematics, year 1 |
Changing interest rates constitute one of the major risk sources for banks, insurance companies, and other financial institutions. Modeling the term-structure movements of interest rates is a challenging task. This course gives an introduction to the mathematics of term-structure models in continuous time. It includes practical aspects for fixed-income markets such as day-count conventions, duration of coupon-paying bonds and yield curve construction; arbitrage theory; short-rate models; the Heath-Jarrow-Morton methodology; consistent term-structure parametrizations; affine diffusion processes and option pricing with Fourier transform; LIBOR market models; and credit risk. The focus is on a mathematically straightforward but rigorous development of the theory.
The course is mainly theoretical.
Activity | Number of hours |
Hoorcollege | 32 |
Tentamen | 3 |
Zelfstudie | 133 |
The programme does not have requirements concerning attendance (OER-B).
| Item and weight | Details |
|
Final grade | |
|
0.6 (60%) Final exam | Must be ≥ 5.6 |
|
0.4 (40%) Homework |
During the course, the students will have to hand in a total of six sets of homework. The average homework grade will count for 40% in the final grade.
Contact the course coordinator to make an appointment for inspection.
The 'Regulations governing fraud and plagiarism for UvA students' applies to this course. This will be monitored carefully. Upon suspicion of fraud or plagiarism the Examinations Board of the programme will be informed. For the 'Regulations governing fraud and plagiarism for UvA students' see: www.uva.nl/plagiarism
| Weeknummer | Onderwerpen | Studiestof |
| 1 | Zero-coupon bonds, interest rates, coupon bonds, swaps | Sections 2.1-2.4 |
| 2 | Yields, caps, floors, swaptions | Sections 2.4-2.7 |
| 3 | Bootstrap, non-parametric estimation of term-structures | Sections 3.1, 3.2 |
| 4 | No lecture | |
| 5 | Principal component analysis | Section 3.4 |
| 6 | Short-rate models | Sections 5.1-5.4.1 |
| 7 | Standard models, default risk | Sections 5.4, 12.1, 12.2 |
| 8 | No lecture | |
| 9 | Heath-Jarrow-Morton methodology | Sections 6.1-6.3 |
| 10 | Forward measures | Sections 7.1-7.3 |
| 11 | Affine processes | Sections 10.1 |
| 12 | Canonical state space | Section 10.2 |
| 13 | Discounting and pricing in affine models | Sections 10.3 |
| 14 | Implied bond market | Section 11.1 - 11.2 |
| 15 | No lecture | |
| 16 | Final exam |
The schedule for this course is published on DataNose.
Recommended prior knowledge: Measure theory, stochastic processes at the level of the course Measure Theoretic Probability, knowledge of stochastic integrals (key words: continuous time martingales, progressive processes, Girsanov transformation, stochastic differential equations) at the level of Stochastic Integration, knowledge of principles of financial mathematics, for instance at the level of Stochastic Processes for Finance.