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Two-stage anti-windup compensation for systems subject to actuator quantization and saturation

Two-stage anti-windup compensation for systems subject to actuator quantization and saturation
Two-stage anti-windup compensation for systems subject to actuator quantization and saturation
This paper proposes a two stage anti-windup compensation scheme for systems subject to both input saturation and input quantization. The paper makes two main contributions: (i) it proposes a new partitioning of the saturation/quantization nonlinearity; and (ii) it formulates and solves a two-stage anti-windup problem on the basis of this partitioned nonlinearity. The anti-windup compensator contains two distinct elements: one to assuage the effects of quantization, the other to do the same when saturation occurs. Theoretical results provide conditions which must be satisfied in order for the two-stage anti-windup compensator to bestow stability on the resulting closed-loop system. These results are expressed as linear matrix inequalities and naturally lead to algorithms for anti-windup design. Simulation examples illustrate the effectiveness of the techniques.
0020-3270
333-346
Turner, M.C.
6befa01e-0045-4806-9c91-a107c53acba0
Richards, C.M.
3eec93cb-9fde-448f-a638-f552484cbb1e
Turner, M.C.
6befa01e-0045-4806-9c91-a107c53acba0
Richards, C.M.
3eec93cb-9fde-448f-a638-f552484cbb1e

Turner, M.C. and Richards, C.M. (2024) Two-stage anti-windup compensation for systems subject to actuator quantization and saturation. International Journal of Control, 98 (2), 333-346. (doi:10.1080/00207179.2024.2337228).

Record type: Article

Abstract

This paper proposes a two stage anti-windup compensation scheme for systems subject to both input saturation and input quantization. The paper makes two main contributions: (i) it proposes a new partitioning of the saturation/quantization nonlinearity; and (ii) it formulates and solves a two-stage anti-windup problem on the basis of this partitioned nonlinearity. The anti-windup compensator contains two distinct elements: one to assuage the effects of quantization, the other to do the same when saturation occurs. Theoretical results provide conditions which must be satisfied in order for the two-stage anti-windup compensator to bestow stability on the resulting closed-loop system. These results are expressed as linear matrix inequalities and naturally lead to algorithms for anti-windup design. Simulation examples illustrate the effectiveness of the techniques.

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Accepted/In Press date: 24 March 2024
Published date: 3 May 2024
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Identifiers

Local EPrints ID: 502687
URI: http://eprints.soton.ac.uk/id/eprint/502687
DOI: doi:10.1080/00207179.2024.2337228
ISSN: 0020-3270
PURE UUID: 849b8973-1b66-4c0f-be9d-3ba2ade14c03

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Date deposited: 04 Jul 2025 16:41
Last modified: 21 Aug 2025 04:54

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Contributors

Author: M.C. Turner
Author: C.M. Richards

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