Extensions on a certainty-equivalence feedback design with a class of feedbacks which guarantee ISS
Seattle, WA(2008)
摘要
In this paper a new class of nonlinear feedbacks that guarantee input-to-state stability (ISS) w.r.t. the measurement error is identified. In particular, it is shown that (inverse) optimal feedback laws, that are separable into a globally Lipschitz part and a nonlinearity satisfying a certain inequality condition, guarantee ISS. As a consequence, those state feedbacks in conjunction with any globally asymptotically convergent observer lead to a globally asymptotically stable closed-loop. The theoretical results are applied to several control problems, e.g. the nonlinear output feedback design of a single-link robot arm or an active magnetic bearing system.
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关键词
asymptotic stability,closed loop systems,nonlinear control systems,observers,optimal control,state feedback,active magnetic bearing system,asymptotically stable closed-loop,certainty-equivalence feedback design,error measurement,globally asymptotically convergent observer,inequality condition,input-to-state stability,inverse optimal feedback laws,single-link robot arm,state feedbacks,stability,robot arm,magnetic levitation,control systems,measurement errors,robots,satisfiability,measurement error,robustness
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