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Geometric Aspects of Shape Optimization

П. И. Плотников, Jan Sokołowski

2023Journal of Geometric Analysis26 citationsDOIOpen Access PDF

Abstract

Abstract We present a review of known results in shape optimization from the point of view of Geometric Analysis. This paper is devoted to the mathematical aspects of the shape optimization theory. We focus on the theory of gradient flows of objective functions and their regularizations. Shape optimization is a part of calculus of variations which uses the geometry. Shape optimization is also related to the free boundary problems in the theory of Partial Differential Equations. We consider smooth perturbations of geometrical domains in order to develop the shape calculus for the analysis of shape optimization problems. There are many applications of such a framework, in solid and fluid mechanics as well as in the solution of inverse problems. For the sake of simplicity we consider model problems, in principle in two spatial dimensions. However, the methods presented are used as well in three spatial dimensions. We present a result on the convergence of the shape gradient method for a model problem. To our best knowledge it is the first result of convergence in shape optimization. The complete proofs of some results are presented in report (Plotnikov and Sokolowski, Gradient flow for Kohn–Vogelius functional).

Topics & Concepts

Shape optimizationMathematicsConvergence (economics)Mathematical proofOptimization problemInverse problemCalculus (dental)Mathematical optimizationPoint (geometry)Applied mathematicsCalculus of variationsGeometryMathematical analysisFinite element methodMedicineDentistryThermodynamicsEconomic growthEconomicsPhysicsTopology Optimization in EngineeringAdvanced Mathematical Modeling in EngineeringNumerical methods in inverse problems
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