• DocumentCode
    1278240
  • Title

    Robust Sliding Mode Control for Robot Manipulators

  • Author

    Islam, Shafiqul ; Liu, Peter X.

  • Author_Institution
    Dept. of Syst. & Comput. Eng., Carleton Univ., Ottawa, ON, Canada
  • Volume
    58
  • Issue
    6
  • fYear
    2011
  • fDate
    6/1/2011 12:00:00 AM
  • Firstpage
    2444
  • Lastpage
    2453
  • Abstract
    In the face of large-scale parametric uncertainties, the single-model (SM)-based sliding mode control (SMC) approach demands high gains for the observer, controller, and adaptation to achieve satisfactory tracking performance. The main practical problem of having high-gain-based design is that it amplifies the input and output disturbance as well as excites hidden unmodeled dynamics, causing poor tracking performance. In this paper, a multiple model/control-based SMC technique is proposed to reduce the level of parametric uncertainty to reduce observer-controller gains. To this end, we split uniformly the compact set of unknown parameters into a finite number of smaller compact subsets. Then, we design a candidate SMC corresponding to each of these smaller subsets. The derivative of the Lyapunov function candidate is used as a resetting criterion to identify a candidate model that approximates closely the plant at each instant of time. The key idea is to allow the parameter estimate of conventional adaptive sliding mode control design to be reset into a model that best estimates the plant among a finite set of candidate models. The proposed method is evaluated on a 2-DOF robot manipulator to demonstrate the effectiveness of the theoretical development.
  • Keywords
    Lyapunov methods; adaptive control; control system synthesis; feedback; manipulator dynamics; observers; robust control; uncertain systems; variable structure systems; Lyapunov function; adaptive sliding mode control design; observer-controller gain reduction; output feedback; parameter estimation; parametric uncertainties; robot manipulators; robust sliding mode control; Large-scale systems; Lyapunov method; Manipulators; Parameter estimation; Performance gain; Programmable control; Robots; Robust control; Sliding mode control; Uncertainty; Adaptive control; output feedback; robotics; robust control;
  • fLanguage
    English
  • Journal_Title
    Industrial Electronics, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0278-0046
  • Type

    jour

  • DOI
    10.1109/TIE.2010.2062472
  • Filename
    5530377