Fathi, Abid and Nader, Naifar (2007): Copula based simulation procedures for pricing basket Credit Derivatives.
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Abstract
This paper deals with the impact of structure of dependency and the choice of procedures for rare-event simulation on the pricing of multi-name credit derivatives such as nth to default swap and Collateralized Debt Obligations (CDO). The correlation between names defaulting has an effect on the value of the basket credit derivatives. We present a copula based simulation procedure for pricing basket default swaps and CDO under different structure of dependency and assessing the influence of different price drivers (correlation, hazard rates and recovery rates) on modelling portfolio losses. Gaussian copulas and Monte Carlo simulation is widely used to measure the default risk in basket credit derivatives. Default risk is often considered as a rare-event and then, many studies have shown that many distributions have fatter tails than those captured by the normal distribution. Subsequently, the choice of copula and the choice of procedures for rare-event simulation govern the pricing of basket credit derivatives. An alternative to the Gaussian copula is Clayton copula and t-student copula under importance sampling procedures for simulation which captures the dependence structure between the underlying variables at extreme values and certain values of the input random variables in a simulation have more impact on the parameter being estimated than others .
| Item Type: | MPRA Paper |
|---|---|
| Original Title: | Copula based simulation procedures for pricing basket Credit Derivatives |
| Language: | English |
| Keywords: | Collateralized Debt Obligations, Basket Default Swaps, Monte Carlo method, One factor Gaussian copula, Clayton copula, t-student copula, importance sampling |
| Subjects: | G - Financial Economics > G1 - General Financial Markets > G19 - Other |
| Item ID: | 6014 |
| Depositing User: | naifar |
| Date Deposited: | 29 Nov 2007 13:41 |
| Last Modified: | 26 Sep 2019 13:24 |
| References: | Abid, F and N. Naifar (2005), “The impact of stock returns volatility on credit default swap rates: a copula study”, International Journal of Theoretical and Applied Finance, Vol.8, No.8 pp: 1135-1155. Abid, F and N. Naifar (2006 (a)), “The determinants of credit default swap rates: An explanatory study”, International Journal of Theoretical and Applied Finance, Vol. 9, No. 1, pp. 23-42. Abid, F and N. Naifar (2006 (b)), “Credit default swap rates and equity volatility: a nonlinear relationship”, The Journal of Risk Finance, Volume 7, Number 4, August 2006, p: 348-371. Andessen, L. and J. Sidenius, (2005), “Extention to the Gaussian copula: Random recovery and Random factor loadings”, Journal of Credit Risk. Bielecki, T. R., S. Crepey, M. Jeanblanc, and M. Rutkowski (2005),“Valuation of basket credit derivatives inthe credit migrations environment”. Working paper, March 2005. Bielecki, T. R., A. Vidozzi, and L. Vidozzi. (2006), “An efficent approach to valuation of credit basket productsand rating triggered step-up bonds” Working paper, May 2006. Burtschell, X.; Gregory, J.; Laurent, J.-P. (2005), “A Comparative Analysis of CDO pricing models”, Working Paper, BNP Paribas. Duffie, D.; Gârleanu, N. (2001), “Risk and Valuation of Collateralized Debt Obligations”, Working Paper, Graduate School of Business, Stanford University. Embrechts, P., McNeil, A., and D. Staumann, (1999), “Correlation and dependence in risk management: Properties and pitfalls”, RISK (1999), 69–71. Ericsson, J., K. Jacobs and R.A. Oviedo (2004), “The determinants of Credit Default Swap Premia”, CIRANO, Montréal, 2004s-55. Frey, R., and A. McNeil (2002), “Modeling dependent defaults”, working Paper, Department of Mathematics, ETHZ. Garcia, T., Maghakian, A., AND S. Sharma, (2004), “Implications of Stochastic Recovery Rates in Evaluating CDO Tranches”, The Journal of Fixed Income, p: 64-71. Gennheimer, H. (2002), “Model Risk in Copula Based Default Pricing Models”, Working paper n. 19, National Centre of Competence in Research Financial Valuation and Risk Management. Gibson, M.S. (2004), “Understanding the Risk of Synthetic CDOs”, Finance and Economics Discussion Series 2004-36, Board of Governors of the Federal Reserve System (U.S.). Gregory, J. and J.P. Laurent, (2004), “In the core of correlation”, Risk, October, pp: 87-91. Hull, J and A. White, (2004) “Valuation of CDO and nth to default CDS without Monte Carlo simulation”, Journal of Derivatives, Vol. 12(2), p. 8-23. Hull, J., M. Predescu and A. White (2004), “The relationship between credit default swap spreads, bond yields and credit rating announcements”, Working Paper, University of Toronto. Jobst, A., (2002), “The pricing puzzle: the default term structure of collateralized loan obligation”, (CFS working paper n°. 2002/14, 2002). Joe, H., (1997), “ Multivariate models and dependence concepts”, (Chapman & Hall, London, 1997). Jouanin, J-F., G. Riboulet and T. Roncalli (2001), “Beyond conditionnally independent defaults”, Credit Lyonnais. Li, D., (2000), “On default correlation: a copula function approach”, Journal of Fixed Income 9, (2000) 43-54. Madan, D. B., Konikov, M. and M. Marinescu, (2004), “Credit and basket default swaps”, (Working paper, Robert H. Smith School of Business and Bloomberg L.P, 2004). Mashal, R., and A. Zeevi (2002), “Beyond correlation: extreme co-movements between financial assets”, Working paper, Columbia Graduate School of Business. Nelsen, R., (1999), An Introduction to Copulas, (Springer Verlag, New York, 1999). Norden, L. and M. weber (2004), “The comovement of credit default swap, bond and stock markets: an empirical analysis”, Center for Financial Studies, Working Paper, No. 2004/20. Papenbrock, J. (2006), “Price Calibration and Hedging of Correlation Dependent Credit Derivatives using a Structural Model with alpha-Stable Distributions”,Diploma Thesis,Institute for Statistics and Mathematical Economic Theory. Sicar, R., and T. Zariphopoulou (2006), “Utility valuation of credit derivatives and application to CDOs”, Working paper, Princeton University. Sklar, A., (1959), “Fonctions de répartition à n dimensions et leurs marges”, Vol. 8 (Publications de l’Institut de Statistique de l’Université de Paris, Paris, 1959). Tavakoli, J.M (2003), “Collateralised debt obligations and structured finance”, John Wiley & Sons, Inc., Hoboken, New Jersey. Tavares, P.A.C., Nguyen, T.U., Chapovsky, A., Vaysburd, I. (2004), “Composite basket model”, working Paper, Merrill Lynch Credit Derivatives. Turc, J., and P. Very., (2004), “Pricing and hedging correlation products”, Quantitative strategy, Bloomberg: SGCT. |
| URI: | https://mpra.ub.uni-muenchen.de/id/eprint/6014 |
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