A Fractional Adaptation Law For Sliding Mode Control

摘要

This paper presents a novel parameter tuning law that forces the emergence of a sliding motion in the behavior of a multi-input multi-output nonlinear dynamic system. Adaptive linear elements are used as controllers. Standard approach to parameter adjustment employs integer order derivative or integration operators. In this paper, the use of fractional differentiation or integration operators for the performance improvement of adaptive sliding mode control systems is presented. Hitting in finite time is proved and the associated conditions with numerical justifications are given. The proposed technique has been assessed through a set of simulations considering the dynamic model of a two degrees of freedom direct drive robot. It is seen that the control system with the proposed adaptation scheme provides (ⅰ) better tracking performance, (ⅱ) suppression of undesired drifts in parameter evolution, (ⅲ) a very high degree of robustness and improved insensitivity to disturbances and (ⅳ) removal of the controller initialization problem.