Distributed Control Synthesis Using Euler’s Method

Coënt, Adrien Le; Sandretto, Julien Alexandre Dit; Chapoutot, Alexandre; Fribourg, Laurent; Vuyst, Florian De; Chamoin, Ludovic

doi:10.1007/978-3-319-67089-8_9

Cited by 9 publications

(9 citation statements)

References 15 publications

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“…These results mainly originate from collaboration with A. Le Coënt, F. De Vuyst, L. Chamoin, J. Alexandre dit Sandretto and A. Chapoutot (see [11,10]).…”

Section: Introductionmentioning

confidence: 86%

Euler’s Method Applied to the Control of Switched Systems

Fribourg

2017

Lecture Notes in Computer Science

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Hybrid systems are a powerful formalism for modeling and reasoning about cyber-physical systems. They mix the continuous and discrete natures of the evolution of computerized systems. Switched systems are a special kind of hybrid systems, with restricted discrete behaviours: those systems only have finitely many different modes of (continuous) evolution, with isolated switches between modes. Such systems provide a good balance between expressiveness and controllability, and are thus in widespread use in large branches of industry such as power electronics and automotive control. The control law for a switched system defines the way of selecting the modes during the run of the system. Controllability is the problem of (automatically) synthezing a control law in order to satisfy a desired property, such as safety (maintaining the variables within a given zone) or stabilisation (confinement of the variables in a close neighborhood around an objective point). In order to compute the control of a switched system, we need to compute the solutions of the differential equations governing the modes. Euler's method is the most basic technique for approximating such solutions. We present here an estimation of the Euler's method local error, using the notion of "one-sided Lispchitz constant" for modes. This yields a general control synthesis approach which can encompass several features such as bounded disturbance and compositionality.

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“…These results mainly originate from collaboration with A. Le Coënt, F. De Vuyst, L. Chamoin, J. Alexandre dit Sandretto and A. Chapoutot (see [11,10]).…”

Section: Introductionmentioning

confidence: 86%

Euler’s Method Applied to the Control of Switched Systems

Fribourg

2017

Lecture Notes in Computer Science

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“…See [18,17] for details. We now suppose (see [10]) that there exist constants λ ∈ R and γ ∈ R ≥0 such that, for all y 1 , y 2 ∈ S and w 1 , w 2 ∈ W:…”

Section: Systems With Bounded Uncertaintymentioning

confidence: 99%

Constructing invariant tori using guaranteed Euler method

Jerray¹,

Fribourg²

2021

Preprint

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“…The main difference with previous work [27,37,19,46,47] is that our method makes use of explicit Euler's algorithm for ODE integration (cf. [32,33]) instead of sophisticated algorithms such as Lohner's algorithm [27] or interval Taylor series methods [44]. This leads us to a simple implementation of just a few hundred lines of Octave (see [31]).…”

Section: Guaranteed Optimal Controlmentioning

confidence: 99%

Guaranteed Optimal Reachability Control of Reaction-Diffusion Equations Using One-Sided Lipschitz Constants and Model Reduction

Coent

Fribourg

2020

Cyber Physical Systems. Model-Based Design

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We show that, for any spatially discretized system of reactiondiffusion, the approximate solution given by the explicit Euler timediscretization scheme converges to the exact time-continuous solution, provided that diffusion coefficient be sufficiently large. By "sufficiently large", we mean that the diffusion coefficient value makes the one-sided Lipschitz constant of the reaction-diffusion system negative. We apply this result to solve a finite horizon control problem for a 1D reactiondiffusion example. We also explain how to perform model reduction in order to improve the efficiency of the method.

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Distributed Control Synthesis Using Euler’s Method

Cited by 9 publications

References 15 publications

Euler’s Method Applied to the Control of Switched Systems

Euler’s Method Applied to the Control of Switched Systems

Constructing invariant tori using guaranteed Euler method

Guaranteed Optimal Reachability Control of Reaction-Diffusion Equations Using One-Sided Lipschitz Constants and Model Reduction

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