A fractional adaptation law for sliding mode control

In this paper, a new approach employing both adaptive and robust methodologies is proposed for stick-slip friction compensation for tracking control of a one degree-of-freedom DC-motor system. It is well known that the major components of friction are Coulomb force, viscous force, exponential force

## Abstract This paper is devoted to robust adaptive sliding mode control for time‐delay systems with mismatched parametric uncertainties. Sufficient conditions for the existence of linear sliding surfaces are given in terms of linear matrix inequalities, by which the corresponding adaptive reachin

An adaptive non-linear observer-based controller is designed for a full model of an induction motor including both electrical and mechanical dynamics. The controller is designed primarily for speed control and is then modi"ed to address position control. Without #ux measurement, the controller has t

This paper addresses the design and implementation of sliding mode controllers with different structures for the idle speed control of an automotive engine. A non-linear controller design based on sliding mode theory is developed. Different strategies for the idle speed controller design are present