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Pré-Publication, Document De Travail Année : 2016

Actuator design for parabolic distributed parameter systems with the moment method

Yannick Privat
Emmanuel Trélat
Enrique Zuazua

Résumé

In this paper, we model and solve the problem of designing in an optimal way actuators for parabolic partial differential equations settled on a bounded open connected subset Ω of IR n. We optimize not only the location but also the shape of actuators, by finding what is the optimal distribution of actuators in Ω, over all possible such distributions of a given measure. Using the moment method, we formulate a spectral optimal design problem, which consists of maximizing a criterion corresponding to an average over random initial data of the largest L^2-energy of controllers. Since we choose the moment method to control the PDE, our study mainly convers one-dimensional parabolic operators but not only. We consider two types of controllers: either internal controls, modeled by characteristic functions, or lumped controls, that are tensorized functions in time and space. Under appropriate spectral assumptions, we prove the existence and uniqueness of an optimal actuator distribution, and we provide a simple computation procedure. Numerical simulations illustrate our results.
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Dates et versions

hal-01261810 , version 1 (25-01-2016)
hal-01261810 , version 2 (01-12-2016)
hal-01261810 , version 3 (07-01-2017)

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  • HAL Id : hal-01261810 , version 1

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Yannick Privat, Emmanuel Trélat, Enrique Zuazua. Actuator design for parabolic distributed parameter systems with the moment method. 2016. ⟨hal-01261810v1⟩
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