Variational approach to coarse-graining of generalized gradient flows

Manh Hong Duong; Agnes Lamacz; Mark A. Peletier; Upanshu Sharma

doi:10.1007/s00526-017-1186-9

Variational approach to coarse-graining of generalized gradient flows

Manh Hong Duong, Agnes Lamacz, Mark A. Peletier, Upanshu Sharma

Mathematics

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Abstract

In this paper we present a variational technique that handles coarse-graining and passing to a limit in a unified manner. The technique is based on a duality structure, which is present in many gradient flows and other variational evolutions, and which often arises from a large-deviations principle. It has three main features: (a) a natural interaction between the duality structure and the coarse-graining, (b) application to systems with non-dissipative effects, and (c) application to coarse-graining of approximate solutions which solve the equation only to some error. As examples, we use this technique to solve three limit problems, the overdamped limit of the Vlasov–Fokker–Planck equation and the small-noise limit of randomly perturbed Hamiltonian systems with one and with many degrees of freedom.

Original language	English
Article number	100
Number of pages	65
Journal	Calculus of Variations and Partial Differential Equations
Volume	56
Issue number	4
Early online date	28 Jun 2017
DOIs	https://doi.org/10.1007/s00526-017-1186-9
Publication status	Published - Aug 2017

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10.1007/s00526-017-1186-9Licence: Creative Commons: Attribution (CC BY)

DuongM2017Variational
Duong, M.H., Lamacz, A., Peletier, M.A. et al. Calc. Var. (2017) 56: 100. https://doi.org/10.1007/s00526-017-1186-9.
Final published version, 1.28 MBLicence: Creative Commons: Attribution (CC BY)

Cite this

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AU - Lamacz, Agnes

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AU - Sharma, Upanshu

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N2 - In this paper we present a variational technique that handles coarse-graining and passing to a limit in a unified manner. The technique is based on a duality structure, which is present in many gradient flows and other variational evolutions, and which often arises from a large-deviations principle. It has three main features: (a) a natural interaction between the duality structure and the coarse-graining, (b) application to systems with non-dissipative effects, and (c) application to coarse-graining of approximate solutions which solve the equation only to some error. As examples, we use this technique to solve three limit problems, the overdamped limit of the Vlasov–Fokker–Planck equation and the small-noise limit of randomly perturbed Hamiltonian systems with one and with many degrees of freedom.

AB - In this paper we present a variational technique that handles coarse-graining and passing to a limit in a unified manner. The technique is based on a duality structure, which is present in many gradient flows and other variational evolutions, and which often arises from a large-deviations principle. It has three main features: (a) a natural interaction between the duality structure and the coarse-graining, (b) application to systems with non-dissipative effects, and (c) application to coarse-graining of approximate solutions which solve the equation only to some error. As examples, we use this technique to solve three limit problems, the overdamped limit of the Vlasov–Fokker–Planck equation and the small-noise limit of randomly perturbed Hamiltonian systems with one and with many degrees of freedom.

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Variational approach to coarse-graining of generalized gradient flows

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