Fixed Income and Credit Derivatives

Semester in dem die Lehrveranstaltung angeboten wird
1 (Winter Semester)
Studienjahr, in dem die Lerneinheit angeboten wird
Kennzahl der Lehrveranstaltung
ECTS Credits

Lernergebnisse der Lehrveranstaltung

Successful students will have gained a basic understanding concerning the pricing of derivative instruments under the no-arbitrage principle. They will be able to outline explicit methods for the pricing of fixed-income and credit derivatives and to apply those.

Art der Veranstaltung


Art der Vermittlung


Voraussetzungen laut Lehrplan

Courses in quantitative methods


Introduction to Fixed Income: Interest Rates, Fixed-Income Instruments, Basic ideas of pricing fixed-income products. Term Structure Models: Nelson-Siegel-Svensson, Cubic Splines, Parameter Forecasting. Interest Rate Derivatives: Callable Bonds, Interest-Rate Caps and Floors, Swaptions. Short-Rate Modelling: Introduction to models like Vasicek, Cox-Ingersoll-Ross, Ho-Lee. Interest-Rate Trees. Credit derivatives: Institutional background, common instruments and indices, market conventions; Credit Ratings; Fundamental concepts of credit-risk modelling. Rating-based models: Transition probabilities, migration matrices, Markov chains and generator matrices; Simulation; Pricing. Structural models: Merton model, risk structure of credit spreads, seniority structure; Simulation. Black-Cox model, KMV model; Capital structure. Intensity models: Discrete-time martingale models and implied pricing probabilities; Building blocks for pricing. Poisson processes, constant and deterministic default intensity; Cox processes, stochastic default intensity and affine models. Factor models: Concepts, conditional default probabilities, loss distributions, risk parameters, scenario stress-testing. CDO pricing: Homogeneous large portfolios and Gaussian copulas, tranche pricing; Compound, base and implied correlations; Bootstrapping

Empfohlene Fachliteratur

Hull, J. (2005). Options, Futures, and other Derivatives, 6th edition. Financial Times. Bluhm, C., Overbeck, L. and Wagner, C. (2003). An Introduction to Credit Risk Modelling. Chapman&Hall/CRC.

Lern- und Lehrmethode

The classes will contain lectures as well as implementation exercises, optionally via spreadsheets or programming. Students are asked to bring their computers with software ready for use (spreadsheets, ideally GNU/R or some other programming environment). Three take-home assignments will further strengthen implementation skills.


The grade will depend on the final exam (70%) and three take-home assignments plus class participation (10% each). The first assignment will be handed out in Class 1 and be due for Class 2; the second assignment will be from Class 3 to Class 4; the third assignment is provided in Class 5 and discussed in Class 6. The final exam will last 90 minutes and focus on understanding and applying the concepts rather than straight reproduction.

Name des/der Vortragenden

Dipl.Ing.ⁱⁿ Dr.ⁱⁿ Tanja Veža
Dipl. Ing. Mag. Alois Pichler, PhD
Dr. Daniel Rettl
Mag.ª Veronika Hallwirth
Prof.MMag. Hermann Elendner, PhD

Zur Übersicht