Analytical Survival Analysis of the Ornstein-Uhlenbeck Process
POSTER
Abstract
We use asymptotic methods from the theory of differential equations to obtain an analytical expression for the survival probability of an Ornstein-Uhlenbeck process with a potential defined over a broad domain.
We form a uniformly continuous analytical solution covering the entire domain by asymptotically matching approximate solutions in an interior region, centered around the origin, to those in boundary layers, near the lateral boundaries of the domain. The analytic solution agrees extremely well with the numerical solution and
takes into account the non-negligible leakage of probability
that occurs at short times when the stochastic process begins close to one of the boundaries. Given the range of applications of Ornstein-Uhlenbeck processes, the analytic solution is of broad relevance across many fields of natural and engineering science.
We form a uniformly continuous analytical solution covering the entire domain by asymptotically matching approximate solutions in an interior region, centered around the origin, to those in boundary layers, near the lateral boundaries of the domain. The analytic solution agrees extremely well with the numerical solution and
takes into account the non-negligible leakage of probability
that occurs at short times when the stochastic process begins close to one of the boundaries. Given the range of applications of Ornstein-Uhlenbeck processes, the analytic solution is of broad relevance across many fields of natural and engineering science.
Presenters
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Ludovico Giorgini
NORDITA
Authors
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Ludovico Giorgini
NORDITA
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Woosok Moon
Stockholm University & Nordita, NORDITA, Mathematics, Stockholm University
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John Scott Wettlaufer
Yale University & Nordita, Yale University, Physics, Yale University