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Levy Processes in Credit Risk
BY Wim Schoutens, Jessica Cariboni
BUSINESS & MANAGEMENT / FINANCE & INVESTMENTS / FINANCIAL ENGINEERING /
This book is an introductory guide to using L¨¦vy processes for credit risk modelling. It covers all types of credit derivatives: from the single name vanillas such as Credit Default Swaps (CDSs) right through to structured credit risk products such as Collateralized Debt Obligations (CDOs), Constant Proportion Portfolio Insurances (CPPIs) and Constant Proportion Debt Obligations (CPDOs) as well as new advanced rating models for Asset Backed Securities (ABSs).
Jumps and extreme events are crucial stylized features, essential in the modelling of the very volatile credit markets - the recent turmoil in the credit markets has once again illustrated the need for more refined models.
Readers will learn how the classical models (driven by Brownian motions and Black-Scholes settings) can be significantly improved by using the more flexible class of L¨¦vy processes. By doing this, extreme event and jumps can be introduced into the models to give more reliable pricing and a better assessment of the risks.
The book brings in high-tech financial engineering models for the detailed modelling of credit risk instruments, setting up the theoretical framework behind the application of L¨¦vy Processes to Credit Risk Modelling before moving on to the practical implementation. Complex credit derivatives structures such as CDOs, ABSs, CPPIs, CPDOs are analysed and illustrated with market data.
Wim Schoutens (Leuven, Belgium) is a research professor in financial engineering in the Department of Mathematics at the Catholic University of Leuven, Belgium. He has extensive practical experience of model implementation and is well known for his consulting work in the banking industry. Wim is the author of L¨¦vy Processes in Finance and co-editor of Exotic Option Pricing and Advanced L¨¦vy Models both published by Wiley. He teaches at 7city Learning and London Financial Studies. He is Managing Editor of the International Journal of Theoretical and Applied Finance and Associate Editor of Mathematical Finance and Review of Derivatives Research.
Jessica Cariboni (Ispra, Italy) has a PhD in applied statistics from the Catholic University of Leuven, Belgium. She was a junior quantitative analyst at Nextra Investment Management. She is currently a functionary of the European Commission and researcher at the European Commission DG-Joint Research Centre, Ispra, Italy. She is also co-author of the book Global Sensitivity Analysis: The Primer published by Wiley.
TABLE OF CONTENTS:
PART I: INTRODUCTION.
1 An Introduction to Credit Risk.
1.1 Credit Risk.
1.1.1 Historical and Risk-Neutral Probabilities.
1.1.2 Bond Prices and Default Probability.
1.2 Credit Risk Modelling.
1.3 Credit Derivatives.
1.4 Modelling Assumptions.
1.4.1 Probability Space and Filtrations.
1.4.2 The Risk-Free Asset.
2 An Introduction to L¨¦vy Processes.
2.1 Brownian Motion.
2.2 L¨¦vy Processes.
2.3 Examples of L¨¦vy Processes.
2.3.1 Poisson Process.
2.3.2 Compound Poisson Process.
2.3.3 The Gamma Process.
2.3.4 Inverse Gaussian Process.
2.3.5 The CMY Process.
2.3.6 The Variance Gamma Process.
2.4 Ornstein¨CUhlenbeck Processes.
2.4.1 The Gamma-OU Process.
2.4.2 The Inverse Gaussian-OU Process.
PART II: SINGLE-NAME MODELLING.
3 Single-Name Credit Derivatives.
3.1 Credit Default Swaps.
3.1.1 Credit Default Swaps Pricing.
3.1.2 Calibration Assumptions.
3.2 Credit Default Swap Forwards.
3.2.1 Credit Default Swap Forward Pricing.
3.3 Constant Maturity Credit Default Swaps.
3.3.1 Constant Maturity Credit Default Swaps Pricing.
3.4 Options on CDS.
4 Firm-Value L¨¦vy Models.
4.1 The Merton Model.
4.2 The Black¨CCox Model with Constant Barrier.
4.3 The L¨¦vy First-Passage Model.
4.4 The Variance Gamma Model.
4.4.1 Sensitivity to the Parameters.
4.4.2 Calibration on CDS Term Structure Curve.
4.5 One-Sided L¨¦vy Default Model.
4.5.1 Wiener¨CHopf Factorization and Default Probabilities.
4.5.2 Illustration of the Pricing of Credit Default Swaps.
4.6 Dynamic Spread Generator.
4.6.1 Generating Spread Paths.
4.6.2 Pricing of Options on CDSs.
4.6.3 Black¡¯s Formulas and Implied Volatility.
Appendix: Solution of the PDIE.
5 IntensityL¨¦vy Models.
5.1 Intensity Models for Credit Risk.
5.1.1 Jarrow¨CTurnbull Model.
5.1.2 Cox Models.
5.2 The Intensity-OU Model.
5.3 Calibration of the Model on CDS Term Structures.
PART III: MULTIVARIATE MODELLING.
6 Multivariate Credit Products.
6.2 Credit Indices.
7 Collateralized Debt Obligations.
7.2 The Gaussian One-Factor Model.
7.3 Generic One-Factor L¨¦vy Model.
7.4 Examples of L¨¦vy Models.
7.5 L¨¦vy Base Correlation.
7.5.1 The Concept of Base Correlation.
7.5.2 Pricing Non-Standard Tranches.
7.5.3 Correlation Mapping for Bespoke CDOs.
7.6 Delta-Hedging CDO tranches.
7.6.1 Hedging with the CDS Index.
7.6.2 Delta-Hedging with a Single-Name CDS.
7.6.3 Mezz-Equity hedging.
8 Multivariate Index Modelling.
8.1 Black¡¯s Model.
8.2 VG Credit Spread Model.
8.3 Pricing Swaptions using FFT.
8.4 Multivariate VG Model.
PART IV: EXOTIC STRUCTURED CREDIT RISK PRODUCTS.
9 Credit CPPIs and CPDOs.
9.3 Gap Risk.
10 Asset-Backed Securities.
10.2 Default Models.
10.2.1 Generalized Logistic Default Model.
10.2.2 L¨¦vy Portfolio Default Model.
10.2.3 Normal One-Factor Default Model.
10.2.4 Generic One-Factor L¨¦vy Default Model.
10.3 Prepayment Models.
10.3.1 Constant Prepayment Model.
10.3.2 L¨¦vy Portfolio Prepayment Model.
10.3.3 Normal One-Factor Prepayment Model.
10.4 Numerical Results.