• DocumentCode
    3531078
  • Title

    A robust MPC/ISM hierarchical multi-loop control scheme for robot manipulators

  • Author

    Ferrara, A. ; Incremona, Gian Paolo ; Magni, Lalo

  • Author_Institution
    Dipt. di Ing. Ind. e dell´Inf., Univ. of Pavia, Pavia, Italy
  • fYear
    2013
  • fDate
    10-13 Dec. 2013
  • Firstpage
    3560
  • Lastpage
    3565
  • Abstract
    In this paper, we propose a robust hierarchical multi-loop control scheme aimed at solving motion control problems for robot manipulators. The kernel of the proposed control scheme is the inverse dynamics-based feedback linearized robotic MIMO system. A first loop is closed relying on an Integral Sliding Mode (ISM) controller, so that matched disturbances and uncertain terms due to unmodelled dynamics, which are not rejected by the inverse dynamics approach, are suitably compensated. An external loop based on Model Predictive Control (MPC) optimizes the evolution of the controlled system in the respect of state and input constraints. The motivation for using ISM, apart from its property of providing robustness to the scheme in front of a significant class of uncertainties, is also given by its capability of enforcing sliding modes of the controlled system since the initial time instant, which is a clear advantage in the considered case, allowing one to solve the model predictive control optimization problem relying on a set of linearized decoupled SISO systems which are not affected by uncertain terms. As a consequence, a standard MPC can be used and the resulting control scheme is characterized by a low computational load with respect to conventional nonlinear robust solutions. The verification and the validation of our proposal have been carried out with satisfactory results in simulation, relying on a model of an industrial robot manipulator with injected noise, to better emulate a realistic set up. Both the model and the noise have been identified on the basis of real data.
  • Keywords
    MIMO systems; hierarchical systems; industrial manipulators; linearisation techniques; manipulator dynamics; motion control; optimisation; predictive control; robust control; variable structure systems; ISM controller; external loop; industrial robot manipulator; input constraints; integral sliding mode controller; inverse dynamics-based feedback linearized robotic MIMO system; linearized decoupled SISO systems; matched disturbances; model predictive control optimization problem; motion control problems; nonlinear robust solutions; robust MPC-ISM hierarchical multiloop control scheme; state constraints; uncertain terms; unmodelled dynamics; Control systems; Joints; Manipulator dynamics; Service robots; Uncertainty;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Decision and Control (CDC), 2013 IEEE 52nd Annual Conference on
  • Conference_Location
    Firenze
  • ISSN
    0743-1546
  • Print_ISBN
    978-1-4673-5714-2
  • Type

    conf

  • DOI
    10.1109/CDC.2013.6760430
  • Filename
    6760430