VARIATIONAL INTEGRATORS FOR STOCHASTIC HAMILTONIAN SYSTEMS ON LIE GROUPS: PROPERTIES AND CONVERGENCE

François Gay-Balmaz; Meng Wu

doi:10.3934/jcd.2026004

VARIATIONAL INTEGRATORS FOR STOCHASTIC HAMILTONIAN SYSTEMS ON LIE GROUPS: PROPERTIES AND CONVERGENCE

François Gay-Balmaz
, Meng Wu

Nanyang Technological University
École Normale Supérieure

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

Abstract

We derive variational integrators for stochastic Hamiltonian systems on Lie groups using a discrete version of the stochastic Hamiltonian phase space principle. The structure-preserving properties of the resulting scheme, such as symplecticity, preservation of the Lie-Poisson structure, preservation of the coadjoint orbits, and preservation of Casimir functions, are discussed, along with a discrete Noether theorem for subgroup symmetries. We also consider in detail the case of stochastic Hamiltonian systems with advected quantities, studying the associated structure-preserving properties in relation to semidirect product Lie groups. A full convergence proof for the scheme is provided for the case of the Lie group of rotations. Several numerical examples are presented, including simulations of the free rigid body and the heavy top.

Original language	English
Pages (from-to)	1-62
Number of pages	62
Journal	Journal of Computational Dynamics
Volume	15
DOIs	https://doi.org/10.3934/jcd.2026004
Publication status	Published - 1 Jul 2026
Externally published	Yes

Keywords

Casimir functions
Poisson integrators
Stochastic variational integrators
coadjoint orbits
convergence analysis
discrete Noether theorem
semidirect products
stochastic Hamiltonian systems on Lie groups

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10.3934/jcd.2026004

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title = "VARIATIONAL INTEGRATORS FOR STOCHASTIC HAMILTONIAN SYSTEMS ON LIE GROUPS: PROPERTIES AND CONVERGENCE",

abstract = "We derive variational integrators for stochastic Hamiltonian systems on Lie groups using a discrete version of the stochastic Hamiltonian phase space principle. The structure-preserving properties of the resulting scheme, such as symplecticity, preservation of the Lie-Poisson structure, preservation of the coadjoint orbits, and preservation of Casimir functions, are discussed, along with a discrete Noether theorem for subgroup symmetries. We also consider in detail the case of stochastic Hamiltonian systems with advected quantities, studying the associated structure-preserving properties in relation to semidirect product Lie groups. A full convergence proof for the scheme is provided for the case of the Lie group of rotations. Several numerical examples are presented, including simulations of the free rigid body and the heavy top.",

keywords = "Casimir functions, Poisson integrators, Stochastic variational integrators, coadjoint orbits, convergence analysis, discrete Noether theorem, semidirect products, stochastic Hamiltonian systems on Lie groups",

author = "Fran{\c c}ois Gay-Balmaz and Meng Wu",

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year = "2026",

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doi = "10.3934/jcd.2026004",

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PY - 2026/7/1

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N2 - We derive variational integrators for stochastic Hamiltonian systems on Lie groups using a discrete version of the stochastic Hamiltonian phase space principle. The structure-preserving properties of the resulting scheme, such as symplecticity, preservation of the Lie-Poisson structure, preservation of the coadjoint orbits, and preservation of Casimir functions, are discussed, along with a discrete Noether theorem for subgroup symmetries. We also consider in detail the case of stochastic Hamiltonian systems with advected quantities, studying the associated structure-preserving properties in relation to semidirect product Lie groups. A full convergence proof for the scheme is provided for the case of the Lie group of rotations. Several numerical examples are presented, including simulations of the free rigid body and the heavy top.

AB - We derive variational integrators for stochastic Hamiltonian systems on Lie groups using a discrete version of the stochastic Hamiltonian phase space principle. The structure-preserving properties of the resulting scheme, such as symplecticity, preservation of the Lie-Poisson structure, preservation of the coadjoint orbits, and preservation of Casimir functions, are discussed, along with a discrete Noether theorem for subgroup symmetries. We also consider in detail the case of stochastic Hamiltonian systems with advected quantities, studying the associated structure-preserving properties in relation to semidirect product Lie groups. A full convergence proof for the scheme is provided for the case of the Lie group of rotations. Several numerical examples are presented, including simulations of the free rigid body and the heavy top.

KW - Casimir functions

KW - Poisson integrators

KW - Stochastic variational integrators

KW - coadjoint orbits

KW - convergence analysis

KW - discrete Noether theorem

KW - semidirect products

KW - stochastic Hamiltonian systems on Lie groups

UR - https://www.scopus.com/pages/publications/105029980952

U2 - 10.3934/jcd.2026004

DO - 10.3934/jcd.2026004

M3 - Article

AN - SCOPUS:105029980952

SN - 2158-2505

VL - 15

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EP - 62

JO - Journal of Computational Dynamics

JF - Journal of Computational Dynamics

ER -

VARIATIONAL INTEGRATORS FOR STOCHASTIC HAMILTONIAN SYSTEMS ON LIE GROUPS: PROPERTIES AND CONVERGENCE

Abstract

Keywords

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