Adaptive simulation and control of variable-structure control systems in sliding regimes

A variable structure adaptive method is developed for robust motion and force tracking control of robot manipulators in the presence of uncertainties in parameters of robot dynamics, contact surface, and external disturbances. The method takes advantages of both variable structure control (VSC) and

An effective way to extend to the multi-input case the variable structure control philosophy is the method based on a set of m#1 control vectors forming a simplex in RK, and on the corresponding switching of the controlled system from one to another of m#1 different structures. In this paper, the ba

An alternative adaptive scheme to achieve output tracking for a class of minimum-phase dynamically input-output linearizable nonlinear systems with parametric uncertainties is considered. The proposed approach is based upon a combination of the adaptive backstepping design method and a sliding mode

This work is concerned with the problem of estimating the asymptotic stability region and sliding domain of uncertain variable structure systems with bounded controllers. The properties of the decoupling theorem and strictly positive real function are used to incorporate with the Lyapunov stability

## Abstract In this paper, the adaptive variable structure control problem is presented for Takagi–Sugeno (T–S) fuzzy time‐delay systems with uncertainties and external disturbances. The fuzzy sliding surfaces for the T–S fuzzy time‐delay system are proposed by using a Lyapunov function, and we des