Reachability Analysis of Generalized Input-Affine Systems with Bounded Measurable Time-Varying Uncertainties

Francois Bidet; Eric Goubault; Sylvie Putot

doi:10.1109/LCSYS.2021.3084530

Reachability Analysis of Generalized Input-Affine Systems with Bounded Measurable Time-Varying Uncertainties

Francois Bidet, Eric Goubault, Sylvie Putot

Laboratoire d'Informatique (LIX)

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

Abstract

This letter presents an approach to over-approximate the reachable set of states of a system whose uncertainties are arbitrarily time-varying. Most approaches generally assume piecewise continuity or sometimes Riemann-integrability of the uncertainties. In this letter we go one step further, only assuming Lebesgue measurability, which is the weakest meaningful hypothesis. We develop our new technique, based on a decomposition of components as a difference of positive functions, for separable systems, a generalization of control-affine systems. We compare the over-approximation produced by our method with the ones obtained using the tools Flow∗ and CORA on simple examples, and show that correct outer-approximations of the reachable sets are computable with a high degree of precision even for these general forms of uncertainties.

Original language	English
Article number	9442847
Pages (from-to)	638-643
Number of pages	6
Journal	IEEE Control Systems Letters
Volume	6
DOIs	https://doi.org/10.1109/LCSYS.2021.3084530
Publication status	Published - 1 Jan 2022

Keywords

Switched systems
time-varying systems
uncertain systems

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10.1109/LCSYS.2021.3084530

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title = "Reachability Analysis of Generalized Input-Affine Systems with Bounded Measurable Time-Varying Uncertainties",

abstract = "This letter presents an approach to over-approximate the reachable set of states of a system whose uncertainties are arbitrarily time-varying. Most approaches generally assume piecewise continuity or sometimes Riemann-integrability of the uncertainties. In this letter we go one step further, only assuming Lebesgue measurability, which is the weakest meaningful hypothesis. We develop our new technique, based on a decomposition of components as a difference of positive functions, for separable systems, a generalization of control-affine systems. We compare the over-approximation produced by our method with the ones obtained using the tools Flow∗ and CORA on simple examples, and show that correct outer-approximations of the reachable sets are computable with a high degree of precision even for these general forms of uncertainties.",

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N2 - This letter presents an approach to over-approximate the reachable set of states of a system whose uncertainties are arbitrarily time-varying. Most approaches generally assume piecewise continuity or sometimes Riemann-integrability of the uncertainties. In this letter we go one step further, only assuming Lebesgue measurability, which is the weakest meaningful hypothesis. We develop our new technique, based on a decomposition of components as a difference of positive functions, for separable systems, a generalization of control-affine systems. We compare the over-approximation produced by our method with the ones obtained using the tools Flow∗ and CORA on simple examples, and show that correct outer-approximations of the reachable sets are computable with a high degree of precision even for these general forms of uncertainties.

AB - This letter presents an approach to over-approximate the reachable set of states of a system whose uncertainties are arbitrarily time-varying. Most approaches generally assume piecewise continuity or sometimes Riemann-integrability of the uncertainties. In this letter we go one step further, only assuming Lebesgue measurability, which is the weakest meaningful hypothesis. We develop our new technique, based on a decomposition of components as a difference of positive functions, for separable systems, a generalization of control-affine systems. We compare the over-approximation produced by our method with the ones obtained using the tools Flow∗ and CORA on simple examples, and show that correct outer-approximations of the reachable sets are computable with a high degree of precision even for these general forms of uncertainties.

KW - Switched systems

KW - time-varying systems

KW - uncertain systems

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DO - 10.1109/LCSYS.2021.3084530

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JO - IEEE Control Systems Letters

JF - IEEE Control Systems Letters

M1 - 9442847

ER -

Reachability Analysis of Generalized Input-Affine Systems with Bounded Measurable Time-Varying Uncertainties

Abstract

Keywords

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