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Smooth Lyapunov Functions For Hybrid Systems Part II: (pre)asymptotically Stable Compact Sets
|Title||Smooth Lyapunov Functions For Hybrid Systems Part II: (pre)asymptotically Stable Compact Sets|
|Publication Type||Journal Article|
|Year of Publication||2008|
|Authors||Cai, C, Teel, AR, Goebel, R|
|Journal||IEEE Transactions on Automatic Control|
It is shown that (pre)asymptotic stability, which generalizes asymptotic stability, of a compact set for a hybrid system satisfying mild regularity assumptions is equivalent to the existence of a smooth Lyapunov function. This result is achieved with the intermediate result that asymptotic stability of a compact set for a hybrid system is generically robust to small, state-dependent perturbations. As a special case, we state a converse Lyapunov theorem for systems with logic variables and use this result to establish input-to-state stabilization using hybrid feedback control. The converse Lyapunov theorems are also used to establish semiglobal practical robustness to slowly varying, weakly jumping parameters, to temporal regularization, to the insertion of jumps according to an "average dwell-time" rule, and to the insertion of flow according to a "reverse average dwell-time" rule.