A Generalized Passivity Theory Over Abstract Time Domains

Published: 01 Jan 2025, Last Modified: 13 May 2025IEEE Trans. Autom. Control. 2025EveryoneRevisionsBibTeXCC BY-SA 4.0
Abstract: Passivity is a well-established concept for continuous-time systems. Yet, its application to discrete time, delay, or other classes of systems is somewhat limited, leading to inconsistencies and disparities. In this article, we study a new notion, $\varrho$-passivity, which reduces to standard passivity in the continuous-time case but addresses some of the aforementioned limitations when applied to other classes of systems. In particular, in an abstract input–output setting, we show that $\varrho$-passivity is preserved under a class of interconnections, thereby extending the existing passivity results. Moreover, we explore the relationship between $\varrho$-passivity and stability, and we derive sufficient conditions for high-gain, low-gain, and causal stabilizability by static output feedback. Finally, in contrast to the standard passivity notion, we prove that $\varrho$-passivity is preserved under sampling for a class of nonlinear systems and discretization methods. Overall, the results of this article constitute the first step toward a unifying passivity theory embracing all the different domains and systems classes relevant to systems and control theory.
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