论文信息 - Coordinate transformation techniques for efficient model reduction in flexible multibody dynamics

Coordinate transformation techniques for efficient model reduction in flexible multibody dynamics

Computational efficiency is important for all numerical simulation tools. For real-time and faster-than-realtime applications, which rely on a strong interaction between simulation results and other subsystems, it is vital. This paper proposes a theoretical framework for coordinate transformations to recast the differentialalgebraic system equations of a flexible mechanism into a simpler set of equations, which is cheaper to solve. Desirable properties of the coordinate transformation to minimize the computational burden of the simulation are discussed, as well as some assumptions that can be made for further simplification. A methodology to make practical use of coordinate transformation techniques to speed up simulation speed for real-time and faster-than-real-time applications is presented.

Wim Desmet | Olivier Bruls | Paul Sas | Gert Heirman

[1] O. Brüls,et al. A Model Reduction Method for the Control of Rigid Mechanisms , 2006 .

[2] J. Golinval,et al. The global modal parameterization for non‐linear model‐order reduction in flexible multibody dynamics , 2007 .

[3] Javier García de Jalón,et al. Kinematic and Dynamic Simulation of Multibody Systems: The Real Time Challenge , 1994 .

[4] L. Riviello,et al. Trim of rotorcraft multibody models using a neural-augmented model-predictive auto-pilot , 2007 .

[5] M. Géradin,et al. Flexible Multibody Dynamics: A Finite Element Approach , 2001 .

[6] Oskar Wallrapp,et al. Representation of geometric stiffening in multibody system simulation , 1991 .

[7] R. Craig. A review of time-domain and frequency-domain component mode synthesis method , 1985 .