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Pré-Publication, Document De Travail Année : 2024

Numerical approximation of a class of constrained Hamilton-Jacobi equations

Résumé

In this paper, we introduce a framework for the discretization of a class of constrained Hamilton-Jacobi equations, a system coupling a Hamilton-Jacobi equation with a Lagrange multiplier determined by the constraint. The equation is non-local, and the constraint has bounded variations. We show that, under a set of general hypothesis, the approximation obtained with a finite-differences monotonic scheme, converges towards the viscosity solution of the constrained Hamilton-Jacobi equation. Constrained Hamilton-Jacobi equations often arise as the long time and small mutation asymptotics of population models in quantitative genetics. As an example, we detail the construction of a scheme for the limit of an integral Lotka-Volterra equation. We also construct and analyze an Asymptotic-Preserving (AP) scheme for the model outside of the asymptotics. We prove that it is stable along the transition towards the asymptotics. The theoretical analysis of the schemes is illustrated and discussed with numerical simulations. The AP scheme is also used to conjecture the asymptotic behavior of the integral Lotka-Volterra equation, when the environment varies in time.
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hal-04510185 , version 1 (18-03-2024)

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  • HAL Id : hal-04510185 , version 1

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Benoît Gaudeul, Hélène Hivert. Numerical approximation of a class of constrained Hamilton-Jacobi equations. 2024. ⟨hal-04510185⟩
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