BILINEAR LOCAL CONTROLLABILITY TO THE TRAJECTORIES OF THE FOKKER–PLANCK EQUATION WITH A LOCALIZED CONTROL

Michel Duprez; Pierre Lissy

doi:10.5802/aif.3501

BILINEAR LOCAL CONTROLLABILITY TO THE TRAJECTORIES OF THE FOKKER–PLANCK EQUATION WITH A LOCALIZED CONTROL

Michel Duprez
, Pierre Lissy

Université de Strasbourg
Université Paris Dauphine

Research output: Contribution to journal › Article › peer-review

Abstract

This work is devoted to the control of the Fokker–Planck equation, posed on a smooth bounded domain of R^d, with a localized drift force. We prove that this equation is locally controllable to regular nonzero trajectories. Moreover, under some conditions, we explain how to reduce the number of controls around the reference control. The results are obtained thanks to a standard linearization method and the fictitious control method. The main novelties are twofold. First, the algebraic solvability is performed and used directly on the adjoint problem. We then prove a new Carleman inequality for the heat equation with a space-time varying first-order term: the right-hand side is the gradient of the solution localized on an open subset. We finally give an example of regular trajectory around which the Fokker–Planck equation is not controllable with a reduced number of controls, to highlight that our conditions are relevant.

Original language	English
Pages (from-to)	1621-1659
Number of pages	39
Journal	Annales de l'Institut Fourier
Volume	72
Issue number	4
DOIs	https://doi.org/10.5802/aif.3501
Publication status	Published - 1 Jan 2022
Externally published	Yes

Keywords

Algebraic solvability
Carleman estimates
Controllability
Fictitious control method
Parabolic equations

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10.5802/aif.3501

Cite this

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title = "BILINEAR LOCAL CONTROLLABILITY TO THE TRAJECTORIES OF THE FOKKER–PLANCK EQUATION WITH A LOCALIZED CONTROL",

abstract = "This work is devoted to the control of the Fokker–Planck equation, posed on a smooth bounded domain of Rd, with a localized drift force. We prove that this equation is locally controllable to regular nonzero trajectories. Moreover, under some conditions, we explain how to reduce the number of controls around the reference control. The results are obtained thanks to a standard linearization method and the fictitious control method. The main novelties are twofold. First, the algebraic solvability is performed and used directly on the adjoint problem. We then prove a new Carleman inequality for the heat equation with a space-time varying first-order term: the right-hand side is the gradient of the solution localized on an open subset. We finally give an example of regular trajectory around which the Fokker–Planck equation is not controllable with a reduced number of controls, to highlight that our conditions are relevant.",

keywords = "Algebraic solvability, Carleman estimates, Controllability, Fictitious control method, Parabolic equations",

author = "Michel Duprez and Pierre Lissy",

year = "2022",

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doi = "10.5802/aif.3501",

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AU - Duprez, Michel

AU - Lissy, Pierre

PY - 2022/1/1

Y1 - 2022/1/1

N2 - This work is devoted to the control of the Fokker–Planck equation, posed on a smooth bounded domain of Rd, with a localized drift force. We prove that this equation is locally controllable to regular nonzero trajectories. Moreover, under some conditions, we explain how to reduce the number of controls around the reference control. The results are obtained thanks to a standard linearization method and the fictitious control method. The main novelties are twofold. First, the algebraic solvability is performed and used directly on the adjoint problem. We then prove a new Carleman inequality for the heat equation with a space-time varying first-order term: the right-hand side is the gradient of the solution localized on an open subset. We finally give an example of regular trajectory around which the Fokker–Planck equation is not controllable with a reduced number of controls, to highlight that our conditions are relevant.

AB - This work is devoted to the control of the Fokker–Planck equation, posed on a smooth bounded domain of Rd, with a localized drift force. We prove that this equation is locally controllable to regular nonzero trajectories. Moreover, under some conditions, we explain how to reduce the number of controls around the reference control. The results are obtained thanks to a standard linearization method and the fictitious control method. The main novelties are twofold. First, the algebraic solvability is performed and used directly on the adjoint problem. We then prove a new Carleman inequality for the heat equation with a space-time varying first-order term: the right-hand side is the gradient of the solution localized on an open subset. We finally give an example of regular trajectory around which the Fokker–Planck equation is not controllable with a reduced number of controls, to highlight that our conditions are relevant.

KW - Algebraic solvability

KW - Carleman estimates

KW - Controllability

KW - Fictitious control method

KW - Parabolic equations

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BILINEAR LOCAL CONTROLLABILITY TO THE TRAJECTORIES OF THE FOKKER–PLANCK EQUATION WITH A LOCALIZED CONTROL

Abstract

Keywords

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