Gradient Approximation in Flexible Multibody Systems Using a Multigrid Approach

Moghadasi, Ali; Held, Alexander; Seifried, Robert

Gradient Approximation in Flexible Multibody Systems Using a Multigrid Approach

Publikationstyp

Conference Paper

Date Issued

2018-12-17

Sprache

English

Author(s)

Moghadasi, Ali

Held, Alexander

Seifried, Robert

Institut

Mechanik und Meerestechnik M-13

TORE-URI

http://hdl.handle.net/11420/10922

Journal

Proceedings in applied mathematics and mechanics

Volume

18

Issue

1

Article Number

e201800439

Citation

Proceedings in applied mathematics and mechanics 18 (1): e201800439 (2018)

Contribution to Conference

89th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM 2018)

Publisher DOI

10.1002/pamm.201800439

Publisher

Wiley-VCH

Peer Reviewed

true

The approximation of gradients with a multigrid approach is presented in the framework of flexible multibody systems, in which the flexible bodies are modeled using finite element method. For the cases where the number of design variables are high, for example, in topology optimization where the density of each element is chosen as a design variable, the gradient computation becomes computationally infeasible. The proposed approximation, in which the gradients are computed simultaneously on a fine grid and a coarse grid, can significantly reduce the computation time without hindering the accuracy of the gradients.

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Gradient Approximation in Flexible Multibody Systems Using a Multigrid Approach