A generic one-factor Levy model for pricing synthetic CDOs
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State: Public
Version: author
Serval ID
serval:BIB_5A1CA002B38D
Type
A part of a book
Publication sub-type
Chapter: chapter ou part
Collection
Publications
Institution
Title
A generic one-factor Levy model for pricing synthetic CDOs
Title of the book
Advances in Mathematical Finance
Publisher
Birkhäuser
Address of publication
Boston
ISBN
978-0-8176-4544-1
978-0-8176-4545-8
978-0-8176-4545-8
Publication state
Published
Issued date
2007
Editor
Fu M., Jarrow R., Yen J., Elliott R. J.
Series
Applied and Numerical Harmonic Analysis
Pages
259-278
Language
english
Abstract
The one-factor Gaussian model is well known not to fit the prices of the different tranches of a collateralized debt obligation (CDO) simultaneously, leading to the implied correlation smile. Recently, other one-factor models based on different distributions have been proposed. Moosbrucker [12] used a one-factor Variance-Gamma (VG) model, Kalemanova et al. [7] and Guégan and Houdain [6] worked with a normal inverse Gaussian (NIG) factor model, and Baxter [3] introduced the Brownian Variance-Gamma (BVG) model. These models bring more flexibility into the dependence structure and allow tail dependence. We unify these approaches, describe a generic one-factor Lévy model, and work out the large homogeneous portfolio (LHP) approximation. Then we discuss several examples and calibrate a battery of models to market data.
Keywords
Lévy processes, collateralized debt obligation (CDO), credit risk, credit default, large homogeneous portfolio approximation
Web of science
Create date
09/02/2009 19:18
Last modification date
20/08/2019 14:13
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