Title :
Stability of limit cycles in hybrid systems using discrete-time Lyapunov techniques
Author :
Rubensson, Marcus ; Lennartson, Bengt
Author_Institution :
Control & Autom. Lab., Chalmers Univ. of Technol., Goteborg, Sweden
Abstract :
This paper concerns stability analysis of limit cycles in hybrid systems. Continuous-time hybrid systems are modeled in a discrete-time affine framework. The discrete-time approach is shown to be appropriate in order to find a Lyapunov formulation for the stability of a hybrid limit cycle. Multiple Lyapunov functions are associated with the transitions in the hybrid system so that the trajectory is shown to converge to the switch points of the limit cycle. The results are formulated in linear matrix inequalities (LMI) which gives a constructive way to find the Lyapunov functions using efficient algorithms. The results are applied to a two-tank example with discrete valued actuators
Keywords :
Lyapunov methods; computational complexity; control system analysis; convergence; discrete time systems; limit cycles; matrix algebra; stability; LMI; Lyapunov functions; continuous-time hybrid systems; discrete valued actuators; discrete-time Lyapunov techniques; discrete-time affine framework; efficient algorithms; hybrid limit cycle; hybrid systems; limit cycles; linear matrix inequalities; multiple Lyapunov functions; stability analysis; trajectory convergence; two-tank example; Automatic control; Automation; Control systems; Limit-cycles; Linear matrix inequalities; Lyapunov method; Mathematical model; Stability analysis; Switches; Tin;
Conference_Titel :
Decision and Control, 2000. Proceedings of the 39th IEEE Conference on
Conference_Location :
Sydney, NSW
Print_ISBN :
0-7803-6638-7
DOI :
10.1109/CDC.2000.912053
