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Modelling and Integration Concepts of Multibody Systems on Lie Groups (CROSBI ID 51633)

Prilog u knjizi | izvorni znanstveni rad

Muller, Andreas ; Terze, Zdravko Modelling and Integration Concepts of Multibody Systems on Lie Groups // Multibody Dynamics, Computational Methods and Applications / Terze, Zdravko (ur.). Cham : Heidelberg : New York : Dordrecht : London: Springer, 2014. str. 123-143

Podaci o odgovornosti

Muller, Andreas ; Terze, Zdravko

engleski

Modelling and Integration Concepts of Multibody Systems on Lie Groups

Lie group integration schemes for multibody systems (MBS) are attractive as they provide a coordinate-free and thus singularity-free approach to MBS modeling. The Lie group setting also allows for developing integration schemes that preserve motion integrals and coadjoint orbits. Most of the recently proposed Lie group integration schemes are based on variants of generalized alpha Newmark schemes. In this chapter constrained MBS are modeled by a system of differential-algebraic equations (DAE) on a configuration being a subvariety of the Lie group SE(3)^n. This is transformed to an index 1 DAE system that is integrated with Munthe-Kaas (MK) integration scheme. The chapter further addresses geometric integration schemes that preserve integrals of motion. In this context, a non-canonical Lie-group Störmer-Verlet integration scheme with direct SO(3) rotational update is presented. The method is 2nd order accurate, it is angular momentum preserving, and it does not introduce a drift in the energy balance of the system. Moreover, although being fully explicit, the method achieves excellent conservation of the angular momentum of a free rotational body and the motion integrals of the Lagrangian top. A higher-order coadjoint-preserving integration on SO(3) scheme is also presented. This method exactly preserves spatial angular momentum of a free body and it is particularly numerically efficient.

Lie group integration, Rigid body dynamics, Multibody systems, Constraint satisfaction, Screw systems, Munthe-Kaas scheme, Motion integrals, Coadjoint orbits preservation, Angular momentum conservation

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Podaci o prilogu

123-143.

objavljeno

Podaci o knjizi

Multibody Dynamics, Computational Methods and Applications

Terze, Zdravko

Cham : Heidelberg : New York : Dordrecht : London: Springer

2014.

978-3-319-07260-9

Povezanost rada

Strojarstvo, Zrakoplovstvo, raketna i svemirska tehnika, Matematika