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Shape Optimization by Constrained First-Order Least Mean Approximation (2309.13595v2)

Published 24 Sep 2023 in math.NA and cs.NA

Abstract: In this work, the problem of shape optimization, subject to PDE constraints, is reformulated as an $Lp$ best approximation problem under divergence constraints to the shape tensor introduced in Laurain and Sturm: ESAIM Math. Model. Numer. Anal. 50 (2016). More precisely, the main result of this paper states that the $Lp$ distance of the above approximation problem is equal to the dual norm of the shape derivative considered as a functional on $W{1,p\ast}$ (where $1/p + 1/p\ast = 1$). This implies that for any given shape, one can evaluate its distance from being a stationary one with respect to the shape derivative by simply solving the associated $Lp$-type least mean approximation problem. Moreover, the Lagrange multiplier for the divergence constraint turns out to be the shape deformation of steepest descent. This provides a way, as an alternative to the approach by Deckelnick, Herbert and Hinze: ESAIM Control Optim. Calc. Var. 28 (2022), for computing shape gradients in $W{1,p\ast}$ for $p\ast \in ( 2 , \infty )$. The discretization of the least mean approximation problem is done with (lowest-order) matrix-valued Raviart-Thomas finite element spaces leading to piecewise constant approximations of the shape deformation acting as Lagrange multiplier. Admissible deformations in $W{1,p\ast}$ to be used in a shape gradient iteration are reconstructed locally. Our computational results confirm that the $Lp$ distance of the best approximation does indeed measure the distance of the considered shape to optimality. Also confirmed by our computational tests are the observations that choosing $p\ast$ (much) larger than 2 (which means that $p$ must be close to 1 in our best approximation problem) decreases the chance of encountering mesh degeneracy during the shape gradient iteration.

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Authors (1)
  1. Gerhard Starke (6 papers)
Citations (1)

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