Optimal control synthesis for the constrained bilinear biquadratic regulator problem

Ido Halperin; Grigory Agranovich; Yuri Ribakov

doi:https://doi.org/10.1007/s11590-017-1218-6

Optimal control synthesis for the constrained bilinear biquadratic regulator problem

Ido Halperin, Grigory Agranovich, Yuri Ribakov

Ariel University

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

Abstract

Optimal process control with control constraints is a challenging task related to many real-life problems. In this paper, a single input continuous time constrained linear quadratic regulator problem, is defined and fully solved. The constraints include both bilinear inequality constraints and customary control force bounds. As a first step, the problem is reformulated as an equivalent constrained bilinear biquadratic optimal control problem. Next, Krotov’s method is used to solve it. To this end, a sequence of improving functions suitable to the problem’s new formulation is constructed and the corresponding successive algorithm is derived. The required computational steps are arranged as an algorithm and proof outlines for the convergence and optimality of the solution are given. The efficiency of the suggested method is demonstrated by numerical example.

Original language	English
Pages (from-to)	1855-1870
Number of pages	16
Journal	Optimization Letters
Volume	12
Issue number	8
DOIs	https://doi.org/10.1007/s11590-017-1218-6
State	Published - 1 Dec 2018

Keywords

Bilinear biquadratic regulator
Constrained optimization
Krotov’s method
Optimal control
Semi-active control

All Science Journal Classification (ASJC) codes

Control and Optimization

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https://doi.org/10.1007/s11590-017-1218-6

Cite this

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title = "Optimal control synthesis for the constrained bilinear biquadratic regulator problem",

abstract = "Optimal process control with control constraints is a challenging task related to many real-life problems. In this paper, a single input continuous time constrained linear quadratic regulator problem, is defined and fully solved. The constraints include both bilinear inequality constraints and customary control force bounds. As a first step, the problem is reformulated as an equivalent constrained bilinear biquadratic optimal control problem. Next, Krotov{\textquoteright}s method is used to solve it. To this end, a sequence of improving functions suitable to the problem{\textquoteright}s new formulation is constructed and the corresponding successive algorithm is derived. The required computational steps are arranged as an algorithm and proof outlines for the convergence and optimality of the solution are given. The efficiency of the suggested method is demonstrated by numerical example.",

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N2 - Optimal process control with control constraints is a challenging task related to many real-life problems. In this paper, a single input continuous time constrained linear quadratic regulator problem, is defined and fully solved. The constraints include both bilinear inequality constraints and customary control force bounds. As a first step, the problem is reformulated as an equivalent constrained bilinear biquadratic optimal control problem. Next, Krotov’s method is used to solve it. To this end, a sequence of improving functions suitable to the problem’s new formulation is constructed and the corresponding successive algorithm is derived. The required computational steps are arranged as an algorithm and proof outlines for the convergence and optimality of the solution are given. The efficiency of the suggested method is demonstrated by numerical example.

AB - Optimal process control with control constraints is a challenging task related to many real-life problems. In this paper, a single input continuous time constrained linear quadratic regulator problem, is defined and fully solved. The constraints include both bilinear inequality constraints and customary control force bounds. As a first step, the problem is reformulated as an equivalent constrained bilinear biquadratic optimal control problem. Next, Krotov’s method is used to solve it. To this end, a sequence of improving functions suitable to the problem’s new formulation is constructed and the corresponding successive algorithm is derived. The required computational steps are arranged as an algorithm and proof outlines for the convergence and optimality of the solution are given. The efficiency of the suggested method is demonstrated by numerical example.

KW - Bilinear biquadratic regulator

KW - Constrained optimization

KW - Krotov’s method

KW - Optimal control

KW - Semi-active control

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EP - 1870

JO - Optimization Letters

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Optimal control synthesis for the constrained bilinear biquadratic regulator problem

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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