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HYBRID
2009
Springer
2009
Springer
Decompositional Construction of Lyapunov Functions for Hybrid Systems
In this paper, we present an automatable decompositional method for the computation of Lyapunov functions for hybrid systems with complex discrete state spaces. We use graph-based reasoning to decompose hybrid automata into subgraphs, for which we then solve semidefinite optimization problems to obtain local Lyapunov functions. These local computations are made in a way that ensures that the family of local Lyapunov functions forms a global Lyapunov function, proving asymptotic stability of the system. The main advantages over standard LMI methods are 1) improved numerical stability due to smaller optimization problems, 2) the possibility of incremental construction of stable hybrid automata and 3) easier diagnosis of unstable parts of the automaton in case no Lyapunov function can be found.
Real-time TrafficGlobal Lyapunov Function | HYBRID 2009 | Hybrid Systems | Local Lyapunov Functions | Lyapunov Function |
| Added | 19 May 2010 |
| Updated | 19 May 2010 |
| Type | Conference |
| Year | 2009 |
| Where | HYBRID |
| Authors | Jens Oehlerking, Oliver E. Theel |
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