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First passage time for multivariate jump‐diffusion processes in finance and other areas of applications

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  • Di Zhang
  • Roderick V. N. Melnik

Abstract

The first passage time (FPT) problem is an important problem with a wide range of applications in science, engineering, economics, and industry. Mathematically, such a problem can be reduced to estimating the probability of a stochastic process first to reach a boundary level. In most important applications in the financial industry, the FPT problem does not have an analytical solution and the development of efficient numerical methods becomes the only practical avenue for its solution. Most of our examples in this contribution are centered around the evaluation of default correlations in credit risk analysis, where we are concerned with the joint defaults of several correlated firms, the task that is reducible to a FPT problem. This task represents a great challenge for jump‐diffusion processes (JDP). In this contribution, we develop further our previous fast Monte Carlo method in the case of multivariate (and correlated) JDP. This generalization allows us, among other things, to evaluate the default events of several correlated assets based on a set of empirical data. The developed technique is an efficient tool for a number of financial, economic, and business applications, such as credit analysis, barrier option pricing, macroeconomic dynamics, and the evaluation of risk, as well as for a number of other areas of applications in science and engineering, where the FPT problem arises. Copyright © 2008 John Wiley & Sons, Ltd.

Suggested Citation

  • Di Zhang & Roderick V. N. Melnik, 2009. "First passage time for multivariate jump‐diffusion processes in finance and other areas of applications," Applied Stochastic Models in Business and Industry, John Wiley & Sons, vol. 25(5), pages 565-582, September.
    • Handle: RePEc:wly:apsmbi:v:25:y:2009:i:5:p:565-582
    DOI: 10.1002/asmb.745
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    References listed on IDEAS

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    1. Hongda Gao & Dejing Kong & Yixin Sun, 2022. "Reliability modeling and analysis for systems governed by multiple competing failures processes," Journal of Risk and Reliability, , vol. 236(2), pages 256-265, April.

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