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【6月5日】Boundary crossing distributions for jump-diffusion processes and flexible boundaries

发布日期:2023-06-05点击: 发布人:统计与数学学院

报告题目:Boundary crossing distributions for jump-diffusion processes and flexible boundaries

主讲人:Professor Liqun Wang(University of Manitoba, Canada)

时间:2023年6月5日(周一)15:00 p.m.

地点:北院卓远楼305会议室

主办单位:统计与数学学院

摘要:

First passage time (FPT) of stochastic processes plays an important role in many scientific fields, such as biology and genetics, epidemiology, finance and insurance, engineering reliability, neuroscience, physics, and statistics. We study the boundary crossing problem for jump-diffusion processes over a discontinuous boundary and provide a complete characterization on the FPT distribution. We show that the FPT density exists only at the points where the upper boundary does not jump down. Moreover, we derive new formulas for piecewise linear boundary crossing probabilities and density of Brownian motion with general random jumps. These formulas can be used to approximate the boundary crossing distributions for general nonlinear boundaries. The method can be extended to more general diffusion processes such as geometric Brownian motion and Ornstein-Uhlenbeck processes with jumps. The numerical computation can be done by Monte Carlo integration which is straightforward and easy to implement. Some numerical examples are presented for illustration.

主讲人简介:

Liqun Wang is Professor and former Head of the Department of Statistics at the University of Manitoba, Canada. He was an assistant professor at University of Basel, Switzerland, and a research fellow at Universities of Dortmund and Hannover, Germany. He was a guest professor at TU Dortmund University and Vienna University of Economics and Business. He has served on the editorial board of several statistical journals including Editor–in–Chief of Springer journal Statistical Papers and Associate Editor of Canadian Journal of Statistics. He is an Elected Member of the International Statistical Institute. Liqun Wang's research interests include boundary crossing probability (first passage time), estimation in nonlinear measurement error models, high–dimensional variable selection, Monte Carlo simulation methods, biostatistics and econometrics.