Title :
Group and Total Dissipativity and Stability of Multi-Equilibria Hybrid Automata
Author :
Navarro-Lopez, Eva M. ; Laila, Dina Shona
Author_Institution :
Sch. of Comput. Sci., Univ. of Manchester, Manchester, UK
Abstract :
Complex systems, which consist of different interdependent and interlocking subsystems, typically have multiple equilibrium points associated with different set points of each operation mode. These systems are usually interpreted as hybrid systems. This paper studies the conditions for dissipativity and some stability properties of a class of hybrid systems with multiple co-existing equilibrium points, modelled as nonlinear hybrid automata. A classification of equilibria for hybrid automata is proposed. The objective is to identify dissipative components as groups of discrete locations within the hybrid automaton, formed according to existing equilibria. An example is provided.
Keywords :
automata theory; large-scale systems; nonlinear control systems; stability; complex systems; discrete location; dissipative component identification; group dissipativity; interdependent subsystems; interlocking subsystems; multiequilibria hybrid automata stability properties; multiple coexisting equilibrium points; nonlinear hybrid automata; operation mode; total dissipativity; Asymptotic stability; Automata; Linear systems; Predictive control; Stability analysis; Switches; Computational methods; control systems; dissipativity theory; energy control; hybrid automata;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2013.2261185
