A Multi-Regulator Sliding Mode Control Strategy for Output-Constrained Systems

Hanz Richter

doi:10.1016/j.automatica.2011.08.003

A Multi-Regulator Sliding Mode Control Strategy for Output-Constrained Systems

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

Abstract

This paper proposes a multi-regulator control scheme for single-input systems, where the setpoint of a regulated output must be changed under the constraint that a set of minimum-phase outputs remain within prescribed bounds. The strategy is based on a max–min selector system frequently used in the aerospace field. The regulators used for the regulated and limited outputs are of the sliding mode type, where the sliding variable is defined as the difference between an output and its allowable limit. The paper establishes overall asymptotic stability, as well as invariance properties leading to limit protection. The design methodology is illustrated with a detailed simulation example on thrust control of a turbofan engine.

Original language	American English
Journal	Automatica
Volume	47
DOIs	https://doi.org/10.1016/j.automatica.2011.08.003
State	Published - Oct 1 2011

Keywords

Control with constraints; Sliding modes; Hybrid systems; Aircraft engines; Selector systems

Disciplines

Aerospace Engineering
Mechanical Engineering

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10.1016/j.automatica.2011.08.003License: CC BY

A Multi-Regulator Sliding Mode Control Strategy for Output-ConstrFinal published version, 1.84 MBLicense: CC BY

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title = "A Multi-Regulator Sliding Mode Control Strategy for Output-Constrained Systems",

abstract = " This paper proposes a multi-regulator control scheme for single-input systems, where the setpoint of a regulated output must be changed under the constraint that a set of minimum-phase outputs remain within prescribed bounds. The strategy is based on a max–min selector system frequently used in the aerospace field. The regulators used for the regulated and limited outputs are of the sliding mode type, where the sliding variable is defined as the difference between an output and its allowable limit. The paper establishes overall asymptotic stability, as well as invariance properties leading to limit protection. The design methodology is illustrated with a detailed simulation example on thrust control of a turbofan engine.",

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N2 - This paper proposes a multi-regulator control scheme for single-input systems, where the setpoint of a regulated output must be changed under the constraint that a set of minimum-phase outputs remain within prescribed bounds. The strategy is based on a max–min selector system frequently used in the aerospace field. The regulators used for the regulated and limited outputs are of the sliding mode type, where the sliding variable is defined as the difference between an output and its allowable limit. The paper establishes overall asymptotic stability, as well as invariance properties leading to limit protection. The design methodology is illustrated with a detailed simulation example on thrust control of a turbofan engine.

AB - This paper proposes a multi-regulator control scheme for single-input systems, where the setpoint of a regulated output must be changed under the constraint that a set of minimum-phase outputs remain within prescribed bounds. The strategy is based on a max–min selector system frequently used in the aerospace field. The regulators used for the regulated and limited outputs are of the sliding mode type, where the sliding variable is defined as the difference between an output and its allowable limit. The paper establishes overall asymptotic stability, as well as invariance properties leading to limit protection. The design methodology is illustrated with a detailed simulation example on thrust control of a turbofan engine.

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M3 - Article

VL - 47

JO - Automatica

JF - Automatica

ER -

A Multi-Regulator Sliding Mode Control Strategy for Output-Constrained Systems

Abstract

Keywords

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