Separation principles for input-output and integral-input-to-state stability

D. Angeli; B. Ingalls; E. D. Sontag; Y. Wang

doi:10.1137/S0363012902419047

Separation principles for input-output and integral-input-to-state stability

D. Angeli, B. Ingalls, E. D. Sontag, Y. Wang

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

81 Scopus citations

Abstract

We present new characterizations of input-output-tostate stability. This is a notion of detectability formulated in the ISS (input-to-state stability) framework. Equivalent properties are presented in terms of asymptotic estimates of the state trajectories based on the magnitudes of the external input and output signals. These results provide a set of separation principles for input-output-to-state stability - characterizations of the property as conjunctions of weaker stability notions. When applied to the notion of integral ISS, these characterizations yield analogous results.

Original language	English (US)
Pages (from-to)	256-276
Number of pages	21
Journal	SIAM Journal on Control and Optimization
Volume	43
Issue number	1
DOIs	https://doi.org/10.1137/S0363012902419047
State	Published - 2005

All Science Journal Classification (ASJC) codes

Control and Optimization
Applied Mathematics

Keywords

Detectability
Input-to-output stability
Lyapunov method
Nonlinear systems

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10.1137/S0363012902419047

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abstract = "We present new characterizations of input-output-tostate stability. This is a notion of detectability formulated in the ISS (input-to-state stability) framework. Equivalent properties are presented in terms of asymptotic estimates of the state trajectories based on the magnitudes of the external input and output signals. These results provide a set of separation principles for input-output-to-state stability - characterizations of the property as conjunctions of weaker stability notions. When applied to the notion of integral ISS, these characterizations yield analogous results.",

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T1 - Separation principles for input-output and integral-input-to-state stability

AU - Angeli, D.

AU - Ingalls, B.

AU - Sontag, E. D.

AU - Wang, Y.

PY - 2005

Y1 - 2005

N2 - We present new characterizations of input-output-tostate stability. This is a notion of detectability formulated in the ISS (input-to-state stability) framework. Equivalent properties are presented in terms of asymptotic estimates of the state trajectories based on the magnitudes of the external input and output signals. These results provide a set of separation principles for input-output-to-state stability - characterizations of the property as conjunctions of weaker stability notions. When applied to the notion of integral ISS, these characterizations yield analogous results.

AB - We present new characterizations of input-output-tostate stability. This is a notion of detectability formulated in the ISS (input-to-state stability) framework. Equivalent properties are presented in terms of asymptotic estimates of the state trajectories based on the magnitudes of the external input and output signals. These results provide a set of separation principles for input-output-to-state stability - characterizations of the property as conjunctions of weaker stability notions. When applied to the notion of integral ISS, these characterizations yield analogous results.

KW - Detectability

KW - Input-to-output stability

KW - Lyapunov method

KW - Nonlinear systems

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JO - SIAM Journal on Control and Optimization

JF - SIAM Journal on Control and Optimization

IS - 1

ER -

Separation principles for input-output and integral-input-to-state stability

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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