%0 Unpublished work %T Existence of optimal shapes in parabolic bilinear optimal control problems %+ CEntre de REcherches en MAthématiques de la DEcision (CEREMADE) %+ Université Paris Dauphine-PSL %A Mazari, Idriss %8 2023-02-23 %D 2023 %K Bilinear optimal control %K qualitative properties of optimisation problems %K parabolic equations with measure datum %Z Mathematics [math]Preprints, Working Papers, ... %X The aim of this paper is to prove the existence of optimal shapes in bilinear parabolic optimal control problems. We consider a parabolic equation that writes ∂tum − ∆um = f (t, x, um) + mum. The set of admissible controls is given by A = {m ∈ L ∞ , m− m m+ a.e., ´Ω m(t, •) = V1(t)} where m± = m±(t, x) are two reference functions in L ∞ ((0, T) × Ω), and where V1 = V1(t) is a reference integral constraint. The functional to optimise is J : m → ˜j1(um) + ´Ω j2(um(T)). Roughly speaking we prove that, if j1 and j2 are non-decreasing and if one is increasing any solution of maxA J is bang-bang: any optimal m * writes m * = 1Em− + 1Ec m+ for some E ⊂ (0, T) × Ω. From the point of view of shape optimization, this is a parabolic analog of the Buttazzo-Dal Maso theorem in shape optimisation. The proof is based on second-order criteria and on an approximation-localisation procedure for admissible perturbations. This last part uses the theory of parabolic equations with measure datum. %G English %2 https://hal.science/hal-04002274/document %2 https://hal.science/hal-04002274/file/M-2023-FP-2%20%281%29.pdf %L hal-04002274 %U https://hal.science/hal-04002274 %~ CNRS %~ UNIV-DAUPHINE %~ INSMI %~ CEREMADE %~ PSL %~ UNIV-DAUPHINE-PSL