Global martingale solutions for quasilinear SPDEs via the boundedness-by-entropy method

Gaurav Dhariwal; Florian Huber; Ansgar Jüngel; Christian Kuehn; Alexandra Neamţu

doi:10.1214/20-AIHP1088

Global martingale solutions for quasilinear SPDEs via the boundedness-by-entropy method

Gaurav Dhariwal, Florian Huber, Ansgar Jüngel, Christian Kuehn, Alexandra Neamţu

Chair of Multiscale and Stochastic Dynamics

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

The existence of global-in-time bounded martingale solutions to a general class of cross-diffusion systems with multiplicative Stratonovich noise is proved. The equations describe multicomponent systems from physics or biology with volume-filling effects and possess a formal gradient-flow or entropy structure. This structure allows for the derivation of almost surely positive lower and upper bounds for the stochastic processes. The existence result holds under some assumptions on the interplay between the entropy density and the multiplicative noise terms. The proof is based on a stochastic Galerkin method, a Wong–Zakai type approximation of the Wiener process, the boundedness-by-entropy method, and the tightness criterion of Brze´ zniak and coworkers. Three-species Maxwell–Stefan systems and n-species biofilm models are examples that satisfy the general assumptions.

Original language	English
Pages (from-to)	577-602
Number of pages	26
Journal	Annales de l'institut Henri Poincare (B) Probability and Statistics
Volume	57
Issue number	1
DOIs	https://doi.org/10.1214/20-AIHP1088
State	Published - Feb 2021

Keywords

Biofilm model
Cross diffusion
Entropy method
Martingale solutions
Maxwell–Stefan systems
Skorokhod–Jakubowski theorem
Tightness

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title = "Global martingale solutions for quasilinear SPDEs via the boundedness-by-entropy method",

abstract = "The existence of global-in-time bounded martingale solutions to a general class of cross-diffusion systems with multiplicative Stratonovich noise is proved. The equations describe multicomponent systems from physics or biology with volume-filling effects and possess a formal gradient-flow or entropy structure. This structure allows for the derivation of almost surely positive lower and upper bounds for the stochastic processes. The existence result holds under some assumptions on the interplay between the entropy density and the multiplicative noise terms. The proof is based on a stochastic Galerkin method, a Wong–Zakai type approximation of the Wiener process, the boundedness-by-entropy method, and the tightness criterion of Brze´ zniak and coworkers. Three-species Maxwell–Stefan systems and n-species biofilm models are examples that satisfy the general assumptions.",

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author = "Gaurav Dhariwal and Florian Huber and Ansgar J{\"u}ngel and Christian Kuehn and Alexandra Neam{\c t}u",

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language = "English",

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AU - Dhariwal, Gaurav

AU - Huber, Florian

AU - Jüngel, Ansgar

AU - Kuehn, Christian

AU - Neamţu, Alexandra

N1 - Publisher Copyright: © Association des Publications de l’Institut Henri Poincaré, 2021

PY - 2021/2

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N2 - The existence of global-in-time bounded martingale solutions to a general class of cross-diffusion systems with multiplicative Stratonovich noise is proved. The equations describe multicomponent systems from physics or biology with volume-filling effects and possess a formal gradient-flow or entropy structure. This structure allows for the derivation of almost surely positive lower and upper bounds for the stochastic processes. The existence result holds under some assumptions on the interplay between the entropy density and the multiplicative noise terms. The proof is based on a stochastic Galerkin method, a Wong–Zakai type approximation of the Wiener process, the boundedness-by-entropy method, and the tightness criterion of Brze´ zniak and coworkers. Three-species Maxwell–Stefan systems and n-species biofilm models are examples that satisfy the general assumptions.

AB - The existence of global-in-time bounded martingale solutions to a general class of cross-diffusion systems with multiplicative Stratonovich noise is proved. The equations describe multicomponent systems from physics or biology with volume-filling effects and possess a formal gradient-flow or entropy structure. This structure allows for the derivation of almost surely positive lower and upper bounds for the stochastic processes. The existence result holds under some assumptions on the interplay between the entropy density and the multiplicative noise terms. The proof is based on a stochastic Galerkin method, a Wong–Zakai type approximation of the Wiener process, the boundedness-by-entropy method, and the tightness criterion of Brze´ zniak and coworkers. Three-species Maxwell–Stefan systems and n-species biofilm models are examples that satisfy the general assumptions.

KW - Biofilm model

KW - Cross diffusion

KW - Entropy method

KW - Martingale solutions

KW - Maxwell–Stefan systems

KW - Skorokhod–Jakubowski theorem

KW - Tightness

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IS - 1

ER -

Global martingale solutions for quasilinear SPDEs via the boundedness-by-entropy method

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Keywords

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