Adaptive Path Following Primal Dual Interior Point Methods for Shape Optimization of Linear and Nonlinear Stokes Flow Problems

• Published in: Large-Scale Scientific Computing pp. 259 - 266
• Main Authors: Hoppe, Ronald H. W., Linsenmann, Christopher, Antil, Harbir
• Format: Book Chapter
• Language: English
• Published: Berlin, Heidelberg Springer Berlin Heidelberg 2008
• Series: Lecture Notes in Computer Science
• Subjects: Curve Representation; Design Variable; Outlet Boundary; Reference Domain; Shape Optimization Problem
• ISBN: 9783540788256; 3540788255
• ISSN: 0302-9743; 1611-3349
• DOI: 10.1007/978-3-540-78827-0_28

We are concerned with structural optimization problems in CFD where the state variables are supposed to satisfy a linear or nonlinear Stokes system and the design variables are subject to bilateral pointwise constraints. Within a primal-dual setting, we suggest an all-at-once approach based on interior-point methods. The discretization is taken care of by Taylor-Hood elements with respect to a simplicial triangulation of the computational domain. The efficient numerical solution of the discretized problem relies on adaptive path-following techniques featuring a predictor-corrector scheme with inexact Newton solves of the KKT system by means of an iterative null-space approach. The performance of the suggested method is documented by several illustrative numerical examples.