A Variational Integrator for the Chaplygin–Timoshenko Sleigh

Zhipeng An; Shan Gao; Donghua Shi; Dmitry V. Zenkov

doi:10.1007/s00332-020-09611-2

A Variational Integrator for the Chaplygin–Timoshenko Sleigh

Zhipeng An, Shan Gao, Donghua Shi^*, Dmitry V. Zenkov

^*此作品的通讯作者

数学学院

科研成果: 期刊稿件 › 文章 › 同行评审

11 引用（Scopus）

摘要

The paper introduces a mechanically inspired nonholonomic integrator for numerical simulation of the dynamics of a constrained geometrically exact beam that is a field-theoretic analogue of the Chaplygin sleigh. The integrator features an exact constraint preservation, an excellent numerical energy conservation throughout a large number of iterations, while avoiding the use of unnecessary Lagrange multipliers. Simulations of the dynamics of the constrained beam reveal typical for nonholonomic system’s behavior, such as motion reversals and locomotion generation.

源语言	英语
页（从-至）	1381-1419
页数	39
期刊	Journal of Nonlinear Science
卷	30
期	4
DOI	https://doi.org/10.1007/s00332-020-09611-2
出版状态	已出版 - 1 8月 2020

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abstract = "The paper introduces a mechanically inspired nonholonomic integrator for numerical simulation of the dynamics of a constrained geometrically exact beam that is a field-theoretic analogue of the Chaplygin sleigh. The integrator features an exact constraint preservation, an excellent numerical energy conservation throughout a large number of iterations, while avoiding the use of unnecessary Lagrange multipliers. Simulations of the dynamics of the constrained beam reveal typical for nonholonomic system{\textquoteright}s behavior, such as motion reversals and locomotion generation.",

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author = "Zhipeng An and Shan Gao and Donghua Shi and Zenkov, {Dmitry V.}",

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AU - An, Zhipeng

AU - Gao, Shan

AU - Shi, Donghua

AU - Zenkov, Dmitry V.

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N2 - The paper introduces a mechanically inspired nonholonomic integrator for numerical simulation of the dynamics of a constrained geometrically exact beam that is a field-theoretic analogue of the Chaplygin sleigh. The integrator features an exact constraint preservation, an excellent numerical energy conservation throughout a large number of iterations, while avoiding the use of unnecessary Lagrange multipliers. Simulations of the dynamics of the constrained beam reveal typical for nonholonomic system’s behavior, such as motion reversals and locomotion generation.

AB - The paper introduces a mechanically inspired nonholonomic integrator for numerical simulation of the dynamics of a constrained geometrically exact beam that is a field-theoretic analogue of the Chaplygin sleigh. The integrator features an exact constraint preservation, an excellent numerical energy conservation throughout a large number of iterations, while avoiding the use of unnecessary Lagrange multipliers. Simulations of the dynamics of the constrained beam reveal typical for nonholonomic system’s behavior, such as motion reversals and locomotion generation.

KW - Discrete mechanics

KW - Field theories

KW - Geometric integration

KW - Hamel’s equations

KW - Nonholonomic systems

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ER -

A Variational Integrator for the Chaplygin–Timoshenko Sleigh

摘要

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