Input-to-State Stability of Differential Inclusions with Application to Hysteretic Feedback Systems - podcast episode cover

Input-to-State Stability of Differential Inclusions with Application to Hysteretic Feedback Systems

Hamilton Institute Seminars (iPod / small)
May 14, 20081 hr 2 min
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Episode description

Speaker: Prof. E. P. Ryan Abstract: Input-to state stability is a concept that captures "nice" properties of dynamical systems with input (e.g.bounded input implies bounded state, input "eventually small" implies state "eventually small", input convergent to zero implies state convergent to zero). Input-to-state stability (ISS) of a class of differential inclusions is described. Every system in the class is of Lur'e-type: a feedback interconnection of a linear system and a (set-valued) nonlinearity. Applications of the ISS results, in the context of feedback interconnections with a hysteresis operator in the feedback path, are developed.
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