Finite volume computation for the non-stationary probability density function of an impulsively controlled 1-D diffusion process

Yuta Yaegashi; Hidekazu Yoshioka; Motoh Tsujimura; Masayuki Fujihara

doi:10.15748/jasse.7.262

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Finite volume computation for the non-stationary probability density function of an impulsively controlled 1-D diffusion process

Yuta Yaegashi, Hidekazu Yoshioka, Motoh Tsujimura, Masayuki Fujihara

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Keywords: Impulse control, Population management, Probability density function, Fokker Planck equation, Finite volume method, Domain transformation

JOURNAL FREE ACCESS

2020 Volume 7 Issue 2 Pages 262-278

DOI https://doi.org/10.15748/jasse.7.262

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Abstract

We derive a Fokker Planck Equation (FPE) governing probability density functions (PDFs) of an impulsively controlled 1-D diffusion process in seasonal population management problems. Two interventions are considered: perfect (completely controllable) and imperfect interventions (not completely controllable). The FPE is an initial- and boundary-value problem subject to a non-local boundary condition along a moving boundary. We show that an finite volume method (FVM) with a domain transformation realizes a conservative discretization for the FPE. We demonstrate that the computed PDFs with the FVM and those with a Monte Carlo method agree well.

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