Voltage-based adaptive impedance force control for a lower-limb rehabilitation robot |
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Authors: | Mohammad Mehdi Fateh |
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Affiliation: | Department of Electrical and Robotic Engineering, Shahrood University, Shahrood, Iran |
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Abstract: | This paper presents a novel voltage-based adaptive impedance force control for a lower limb rehabilitation robot. The impedance parameters are adaptively regulated by a gradient descent algorithm for adjusting the human force in performing therapeutic exercises. Although the proposed control is based on voltage control strategy, it differs from the common torque control strategy. One of the advantages is that it is free from the dynamical models of the robot and patient. Compared with a torque control scheme, it is simpler, less computational, and more efficient while it considers the actuators. The control approach is verified by stability analysis. Simulation results show the efficiency of the control approach applied on a lower limb rehabilitation robot driven by an electric motor. A comparison on performing isometric exercise shows that the voltage-based adaptive impedance force control is superior to both voltage-based impedance control and torque-based impedance control. |
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Keywords: | rehabilitation robot voltage-based control torque-based control impedance control adaptive impedance control |
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