The role of PDE-based parameterization techniques in gradient-based IGA shape optimization applications

Journal article (2021)

Authors

J.P. Hinz Swiss Federal Institute of Technology
Andrzej Jaeschke Lodz University of Technology
M. Möller Numerical Analysis - EEMCS
Cornelis Vuik Numerical Analysis - EEMCS
Research Group
Numerical Analysis (EEMCS) (TU Delft)
Copyright: © 2021 J.P. Hinz, Andrzej Jaeschke, M. Möller, Cornelis Vuik
DOI: https://doi.org/10.1016/j.cma.2021.113685
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Published Date

2021

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Delft Institute of Applied Mathematics

Research Group

Numerical Analysis

Abstract

This paper proposes a shape optimization algorithm based on the principles of Isogeometric Analysis (IGA) in which the parameterization of the geometry enters the problem formulation as an additional PDE-constraint. Inspired by the isoparametric principle of IGA, the parameterization and the governing state equation are treated using the same numerical technique. This leads to a scheme that is comparatively easy to differentiate, allowing for a fully symbolic derivation of the gradient and subsequent gradient-based optimization. To improve the efficiency and robustness of the scheme, the basis is re-selected during each optimization iteration and adjusted to the current needs. The scheme is validated in two test cases.

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