Practical optimal state feedback control law for continuous-time switched affine systems with cyclic steady state

D. Patino; P. Riedinger; C. Iung

doi:10.1080/00207170802563280

Practical optimal state feedback control law for continuous-time switched affine systems with cyclic steady state

D. Patino
, P. Riedinger
, C. Iung

Nancy University

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

39 Scopus citations

Abstract

In this article, a method for computing an optimal state feedback control law for continuous-time switched affine systems exhibiting cyclic behaviour in steady state is presented. The hybrid solutions are deduced from the Fillipov solutions. It is shown that the optimal trajectory synthesis implies to determine singular arcs. Algebraic conditions are given to obtain these particular arcs of the trajectory. A numerical procedure is then proposed to generate optimal trajectories on a given state space area avoiding the classical two-point boundary value problem occurring in optimal control synthesis. The interpolation of the solutions set, through a neural network, yields a state feedback control law. Several examples in the power converters field show the feasibility and the efficiency of the method.

Original language	English
Pages (from-to)	1357-1376
Number of pages	20
Journal	International Journal of Control
Volume	82
Issue number	7
DOIs	https://doi.org/10.1080/00207170802563280
State	Published - Jul 2009
Externally published	Yes

Keywords

Neural network
Optimal control
Power converters
Singular control
State feedback
Switched affine systems

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10.1080/00207170802563280

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title = "Practical optimal state feedback control law for continuous-time switched affine systems with cyclic steady state",

abstract = "In this article, a method for computing an optimal state feedback control law for continuous-time switched affine systems exhibiting cyclic behaviour in steady state is presented. The hybrid solutions are deduced from the Fillipov solutions. It is shown that the optimal trajectory synthesis implies to determine singular arcs. Algebraic conditions are given to obtain these particular arcs of the trajectory. A numerical procedure is then proposed to generate optimal trajectories on a given state space area avoiding the classical two-point boundary value problem occurring in optimal control synthesis. The interpolation of the solutions set, through a neural network, yields a state feedback control law. Several examples in the power converters field show the feasibility and the efficiency of the method.",

keywords = "Neural network, Optimal control, Power converters, Singular control, State feedback, Switched affine systems",

author = "D. Patino and P. Riedinger and C. Iung",

note = "Funding Information: Research supported by the European Framework of Excellence {\textquoteleft}HYbrid CONtrol: Taming Heterogeneity and Complexity of Networked Embedded Systems (HYCON){\textquoteright}.",

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AU - Patino, D.

AU - Riedinger, P.

AU - Iung, C.

N1 - Funding Information: Research supported by the European Framework of Excellence ‘HYbrid CONtrol: Taming Heterogeneity and Complexity of Networked Embedded Systems (HYCON)’.

PY - 2009/7

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N2 - In this article, a method for computing an optimal state feedback control law for continuous-time switched affine systems exhibiting cyclic behaviour in steady state is presented. The hybrid solutions are deduced from the Fillipov solutions. It is shown that the optimal trajectory synthesis implies to determine singular arcs. Algebraic conditions are given to obtain these particular arcs of the trajectory. A numerical procedure is then proposed to generate optimal trajectories on a given state space area avoiding the classical two-point boundary value problem occurring in optimal control synthesis. The interpolation of the solutions set, through a neural network, yields a state feedback control law. Several examples in the power converters field show the feasibility and the efficiency of the method.

AB - In this article, a method for computing an optimal state feedback control law for continuous-time switched affine systems exhibiting cyclic behaviour in steady state is presented. The hybrid solutions are deduced from the Fillipov solutions. It is shown that the optimal trajectory synthesis implies to determine singular arcs. Algebraic conditions are given to obtain these particular arcs of the trajectory. A numerical procedure is then proposed to generate optimal trajectories on a given state space area avoiding the classical two-point boundary value problem occurring in optimal control synthesis. The interpolation of the solutions set, through a neural network, yields a state feedback control law. Several examples in the power converters field show the feasibility and the efficiency of the method.

KW - Neural network

KW - Optimal control

KW - Power converters

KW - Singular control

KW - State feedback

KW - Switched affine systems

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DO - 10.1080/00207170802563280

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EP - 1376

JO - International Journal of Control

JF - International Journal of Control

IS - 7

ER -

Practical optimal state feedback control law for continuous-time switched affine systems with cyclic steady state

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