In this paper a novel switching control strategy for suppressing undesired limit cycles in autonomous smooth and non-smooth systems is presented. The switching controller is designed by using the theory of non-smooth bifurcations. Namely, a nearby corner-collision event introduced by the switching control law is used to suppress the unwanted oscillatory motion and introduce a desired stable equilibrium point. The switching control action is only started when the system trajectories enter an appropriately defined corner region in phase space including the desired equilibrium point. The technique is proven to be effective in the case of three different representative examples.
Switching Control of Limit Cycles in Planar Systems: A Nonlinear Dynamics Approach / F., Angulo; DI BERNARDO, Mario; G., Olivar. - STAMPA. - (2004), pp. 4897-4902. ( IEEE Conference on Decision and Control The Bahamas, USA DICEMBRE 2004) [10.1109/CDC.2004.1429576].
Switching Control of Limit Cycles in Planar Systems: A Nonlinear Dynamics Approach
DI BERNARDO, MARIO;
2004
Abstract
In this paper a novel switching control strategy for suppressing undesired limit cycles in autonomous smooth and non-smooth systems is presented. The switching controller is designed by using the theory of non-smooth bifurcations. Namely, a nearby corner-collision event introduced by the switching control law is used to suppress the unwanted oscillatory motion and introduce a desired stable equilibrium point. The switching control action is only started when the system trajectories enter an appropriately defined corner region in phase space including the desired equilibrium point. The technique is proven to be effective in the case of three different representative examples.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
