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Adaptive Inverse Optimal Control for Rehabilitation Robot Systems Using Actor-Critic Algorithm

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  • Fancheng Meng
  • Yaping Dai

Abstract

The higher goal of rehabilitation robot is to aid a person to achieve a desired functional task (e.g., tracking trajectory) based on assisted-as-needed principle. To this goal, a new adaptive inverse optimal hybrid control (AHC) combining inverse optimal control and actor-critic learning is proposed. Specifically, an uncertain nonlinear rehabilitation robot model is firstly developed that includes human motor behavior dynamics. Then, based on this model, an open-loop error system is formed; thereafter, an inverse optimal control input is designed to minimize the cost functional and a NN-based actor-critic feedforward signal is responsible for the nonlinear dynamic part contaminated by uncertainties. Finally, the AHC controller is proven (through a Lyapunov-based stability analysis) to yield a global uniformly ultimately bounded stability result, and the resulting cost functional is meaningful. Simulation and experiment on rehabilitation robot demonstrate the effectiveness of the proposed control scheme.

Suggested Citation

  • Fancheng Meng & Yaping Dai, 2014. "Adaptive Inverse Optimal Control for Rehabilitation Robot Systems Using Actor-Critic Algorithm," Mathematical Problems in Engineering, Hindawi, vol. 2014, pages 1-15, August.
    • Handle: RePEc:hin:jnlmpe:285248
    DOI: 10.1155/2014/285248
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