Interacting particle systems for the computation of rare credit portfolio losses |
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| Authors: | René Carmona Jean-Pierre Fouque Douglas Vestal |
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| Affiliation: | (1) Bendheim Center for Finance, Department ORFE, Princeton University, Princeton, NJ 08544, USA;(2) Department of Statistics and Applied Probability, University of California, South Hall 5504, Santa Barbara, CA 93106-3110, USA;(3) Julius Finance, 5 Penn Plaza, Level 23, New York, NY 10001, USA |
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| Abstract: | In this paper, we introduce the use of interacting particle systems in the computation of probabilities of simultaneous defaults in large credit portfolios. The method can be applied to compute small historical as well as risk-neutral probabilities. It only requires that the model be based on a background Markov chain for which a simulation algorithm is available. We use the strategy developed by Del Moral and Garnier in (Ann. Appl. Probab. 15:2496–2534, 2005) for the estimation of random walk rare events probabilities. For the purpose of illustration, we consider a discrete-time version of a first passage model for default. We use a structural model with stochastic volatility, and we demonstrate the efficiency of our method in situations where importance sampling is not possible or numerically unstable. |
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| Keywords: | Interacting particle systems Rare defaults Monte Carlo methods Credit derivatives Variance reduction |
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