arXiv:2402.16400 Abstract | arXiv Analytics

arXiv:2402.16400 [math.PR]Abstract References Reviews Resources

Quantitative Propagation of Chaos in $L^η(η\in(0,1])$-Wasserstein distance for Mean Field Interacting Particle System

Published 2024-02-26, updated 2024-08-29Version 2

In this paper, quantitative propagation of chaos in $L^\eta$($\eta\in(0,1]$)-Wasserstein distance for mean field interacting particle system is derived, where the diffusion coefficient is allowed to be interacting and the initial distribution of interacting particle system converges to that of the limit equation in $L^1$-Wasserstein distance. The non-degenerate and second order system are investigated respectively and the main tool relies on the gradient estimate of the decoupled SDEs.

Comments: 17 pages

Categories: math.PR

Keywords: mean field interacting particle system, wasserstein distance, quantitative propagation, main tool relies, second order system

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arXiv:2402.16400 [math.PR]Abstract References Reviews Resources

Quantitative Propagation of Chaos in $L^η(η\in(0,1])$-Wasserstein distance for Mean Field Interacting Particle System

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arXiv:2402.16400 [math.PR]AbstractReferencesReviewsResources

Quantitative Propagation of Chaos in $L^η(η\in(0,1])$-Wasserstein distance for Mean Field Interacting Particle System

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arXiv:2402.16400 [math.PR]Abstract References Reviews Resources