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Remark on stability margin of Lur'e systems

Remark on stability margin of Lur'e systems In a recent work, a definition of stability margin (gain and phase margins) for a class of nonlinear systems (Lur'e systems consisting of a linear time‐invariant (LTI) plant and a sector‐constrained nonlinearity) is proposed based on the famous circle criterion. This definition is indeed interesting because the concept of gain and phase margins has been largely limited to linear systems with a single input and a single output (SISO), but it was further established for Lur'e systems with a particular type of sector constraints ( k1=0$$ {k}_1=0 $$, e.g., saturation). In this paper, the previously established concept is extended to cover Lur'e systems with a general type of sector constraints ( k1≥0$$ {k}_1\ge 0 $$). It is, however, pointed out that in case of k1=0$$ {k}_1=0 $$, the definitions of phase margin based on the circle criterion can be misleading and need to be modified or replaced perhaps by a time‐delay margin for Lur'e systems including an integrator, for which the phase margin can be trivially zero. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Asian Journal of Control Wiley

Remark on stability margin of Lur'e systems

Kim, Yoonsoo
Asian Journal of Control , Volume 25 (6) – Nov 1, 2023
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References (8)

Publisher
Wiley
Copyright
© 2023 Chinese Automatic Control Society and John Wiley & Sons Australia, Ltd
ISSN
1561-8625
eISSN
1934-6093
DOI
10.1002/asjc.3101
Publisher site
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Abstract

In a recent work, a definition of stability margin (gain and phase margins) for a class of nonlinear systems (Lur'e systems consisting of a linear time‐invariant (LTI) plant and a sector‐constrained nonlinearity) is proposed based on the famous circle criterion. This definition is indeed interesting because the concept of gain and phase margins has been largely limited to linear systems with a single input and a single output (SISO), but it was further established for Lur'e systems with a particular type of sector constraints ( k1=0$$ {k}_1=0 $$, e.g., saturation). In this paper, the previously established concept is extended to cover Lur'e systems with a general type of sector constraints ( k1≥0$$ {k}_1\ge 0 $$). It is, however, pointed out that in case of k1=0$$ {k}_1=0 $$, the definitions of phase margin based on the circle criterion can be misleading and need to be modified or replaced perhaps by a time‐delay margin for Lur'e systems including an integrator, for which the phase margin can be trivially zero.

Journal

Asian Journal of ControlWiley

Published: Nov 1, 2023

Keywords: circle criterion; gain and phase margins; Lur'e systems; stability margin

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