Serikbolsyn Duisembay scite author profile

Serikbolsyn Duisembay

5Publications

2Citation Statements Received

127Citation Statements Given

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127

Affiliations

King Abdullah University of Science and Technology

Publications

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Approximation of an optimal control problem for the time-fractional Fokker-Planck equation

Camilli¹,

Duisembay²,

Tang³

2021

JDG

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In this paper, we study the numerical approximation of a system of PDEs which arises from an optimal control problem for the time-fractional Fokker-Planck equation with time-dependent drift. The system is composed of a backward time-fractional Hamilton-Jacobi-Bellman equation and a forward time-fractional Fokker-Planck equation. We approximate Caputo derivatives in the system by means of L1 schemes and the Hamiltonian by finite differences. The scheme for the Fokker-Planck equation is constructed in such a way that the duality structure of the PDE system is preserved on the discrete level. We prove the well-posedness of the scheme and the convergence to the solution of the continuous problem.

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Approximation of an optimal control problem for the time-fractional Fokker-Planck equation

Camilli

Duisembay

Tang³

2020

Preprint

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In this paper, we study the numerical approximation of a system of PDEs with fractional time derivatives. This system is derived from an optimal control problem for a time-fractional Fokker-Planck equation with time dependent drift by convex duality argument. The system is composed by a time-fractional backward Hamilton-Jacobi-Bellman and a forward Fokker-Planck equation and can be used to describe the evolution of probability density of particles trapped in anomalous diffusion regimes. We approximate Caputo derivatives in the system by means of L1 schemes and the Hamiltonian by finite differences. The scheme for the Fokker-Planck equation is constructed such that the duality structure of the PDE system is preserved on the discrete level. We prove the well posedness of the scheme and the convergence to the solution of the continuous problem.

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Particle approximation of one-dimensional Mean-Field-Games with local interactions

Francesco

Duisembay

Gomes

et al. 2022

DCDS

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<p style='text-indent:20px;'>We study a particle approximation for one-dimensional first-order Mean-Field-Games (MFGs) with local interactions with planning conditions. Our problem comprises a system of a Hamilton-Jacobi equation coupled with a transport equation. As we deal with the planning problem, we prescribe initial and terminal distributions for the transport equation. The particle approximation builds on a semi-discrete variational problem. First, we address the existence and uniqueness of a solution to the semi-discrete variational problem. Next, we show that our discretization preserves some previously identified conserved quantities. Finally, we prove that the approximation by particle systems preserves displacement convexity. We use this last property to establish uniform estimates for the discrete problem. We illustrate our results for the discrete problem with numerical examples.</p>

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Convergent Difference Schemes for Hamilton-Jacobi equations

Duisembay¹

2018

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Particle approximation of one-dimensional Mean-Field-Games with local interactions

Francesco¹,

Duisembay²,

Gomes³

et al. 2021

Preprint

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