Title :
Optimal sliding mode design for nonlinear discrete-time systems
Author :
Dong Rui ; Gao Hong-Wei
Author_Institution :
Henan Inst. of Sci. & Technol., Xinxiang, China
Abstract :
The optimal sliding mode control (OSDC) for nonlinear discrete-time systems with infinite horizon quadratic performance indexes is considered. The optimal control law for general nonlinear system with quadratic index is given in terms of solution to the HJB(Hamilton-Jocabi-Bellman) equation or the nonlinear TPBV (Two Point Boundary Problem) problem. In the optimal sliding surface designing process, this paper explores the successive approximation approach (SAA). The OSDC obtained consists of linear analytic functions and a compensation term which is a series sum of adjoint vectors. The results of the simulation show the validity of the approach mentioned.
Keywords :
approximation theory; control system synthesis; discrete time systems; nonlinear control systems; optimal control; variable structure systems; HJB; Hamilton-Jocabi-Bellman; OSDC; SAA; TPBV; horizon quadratic performance; nonlinear discrete-time systems; optimal control law; optimal sliding mode design; quadratic index; successive approximation approach; two point boundary problem; Equations; Manifolds; Mathematical model; Nonlinear systems; Sliding mode control; Switches; Discrete-time Systems; Nonlinear Systems; Optimal Sliding Mode; Variable Structure Control;
Conference_Titel :
Control Conference (CCC), 2011 30th Chinese
Conference_Location :
Yantai
Print_ISBN :
978-1-4577-0677-6
Electronic_ISBN :
1934-1768
