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A framework for simultaneous aerodynamic design optimization in the presence of chaos

Stefanie GŁnther (stefanie.guenther***at***scicomp.uni-kl.de)
Nicolas R. Gauger (nicolas.gauger***at***scicomp.uni-kl.de)
Qiqi Wang (qiqi***at***mit.edu)

Abstract: Integrating existing solvers for unsteady partial differential equations (PDEs) into a simultaneous optimization method is challenging due to the forward- in-time information propagation of classical time-stepping methods. This paper applies the simultaneous single-step one-shot optimization method to a reformulated unsteady PDE constraint that allows for both forward- and backward-in-time information propagation. Especially in the presence of chaotic and turbulent flow, solving the initial value problem simultaneously with the optimization problem often scales poorly with the time domain length. The new formulation relaxes the initial condition and instead solves a least squares problem for the discrete partial differential equations. This enables efficient one-shot optimization that is independent of the time domain length, even in the presence of chaos. The method operates non-intrusively with respect to classical time-stepping methods which makes it especially beneficial for applications where a highly developed unsteady simulation code is available.

Keywords: simultaneous optimization, one-shot, unsteady flow, dual time-stepping, chaos, least squares shadowing

Category 1: Nonlinear Optimization (Systems governed by Differential Equations Optimization )


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Entry Submitted: 12/07/2015
Entry Accepted: 12/07/2015
Entry Last Modified: 01/13/2017

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