Harbir Antil, Thomas S. Brown, Deepanshu Verma, Mahamadi Warma
Published 2020-04-20Version 1
This paper considers optimal control of fractional parabolic PDEs with both state and control constraints. The key challenge is how to handle the state constraints. Similarly, to the elliptic case, in this paper, we establish several new mathematical tools in the parabolic setting that are of wider interest. For example, existence of solution to the fractional parabolic equation with measure data on the right-hand-side. We employ the Moreau-Yosida regularization to handle the state constraints. We establish convergence, with rate, of the regularized optimal control problem to the original one. Numerical experiments confirm what we have proven theoretically.
Numerical continuation for fractional PDEs: sharp teeth and bloated snakes
Contraction of the proximal map and generalized convexity of the Moreau-Yosida regularization in the 2-Wasserstein metric
Deterministic mean field games with control on the acceleration and state constraints
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