Abstract
This article considers the design of sliding mode control for stochastic Markovian jumping systems with actuator nonlinearities. In the design of integral sliding surfaces, a set of specified matrices are employed such that the connections among sliding surfaces corresponding to each mode are established. And then, a sliding mode controller depending on the transition rates is synthesised such that the reachability of the specified sliding surface can be ensured. Moreover, sufficient conditions for the stability of the sliding motions are derived. It is shown that the effect of Markovian switching can be coped with by the present sliding mode control method. Finally, the simulation results illustrating the proposed method are provided.
Acknowledgements
The research was partially supported by the Technology Innovation Key Foundation of Shanghai Municipal Education Commission (09ZZ60), and Shanghai Leading Academic Discipline Project (B504), the NNSF from China (61074041).