A novel nonsmooth dynamics method for multibody systems with friction and impact based on the symplectic discrete format

Peng, Haijun; Song, Ningning; Kan, Ziyun

doi:10.1002/nme.6278

Cited by 15 publications

(1 citation statement)

References 57 publications

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“…Zhang [30] applied the symplectic Runge-Kutta method in the dynamics of spacecraft relative motion. Peng [31,32] proposed the symplectic nonsmooth dynamic method for multibody system analysis. The numerical results all illus-trated high accuracy and stability as well as good conservation properties of the symplectic algorithms above.…”

Section: Introductionmentioning

confidence: 99%

A Symplectic Conservative Perturbation Series Expansion Method for Linear Hamiltonian Systems with Perturbations and Its Applications

sci¹

2021

AAMM

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In this paper, a novel symplectic conservative perturbation series expansion method is proposed to investigate the dynamic response of linear Hamiltonian systems accounting for perturbations, which mainly originate from parameters dispersions and measurement errors. Taking the perturbations into account, the perturbed system is regarded as a modification of the nominal system. By combining the perturbation series expansion method with the deterministic linear Hamiltonian system, the solution to the perturbed system is expressed in the form of asymptotic series by introducing a small parameter and a series of Hamiltonian canonical equations to predict the dynamic response are derived. Eventually, the response of the perturbed system can be obtained successfully by solving these Hamiltonian canonical equations using the symplectic difference schemes. The symplectic conservation of the proposed method is demonstrated mathematically indicating that the proposed method can preserve the characteristic property of the system. The performance of the proposed method is evaluated by three examples compared with the Runge-Kutta algorithm. Numerical examples illustrate the superiority of the proposed method in accuracy and stability, especially symplectic conservation for solving linear Hamiltonian systems with perturbations and the applicability in structural dynamic response estimation.

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Section: Introductionmentioning

confidence: 99%