NDLI: Robustness and Tracking Performance Evaluation of PID Motion Control of 7 DoF Anthropomorphic Exoskeleton Robot Assisted Upper Limb Rehabilitation

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Robustness and Tracking Performance Evaluation of PID Motion Control of 7 DoF Anthropomorphic Exoskeleton Robot Assisted Upper Limb Rehabilitation

Content Provider	MDPI
Author	Ahmed, Tanvir Islam, Rasedul Brahmi, Brahim Rahman, Mohammad Habibur
Copyright Year	2022
Description	Upper limb dysfunctions (ULD) are common following a stroke. Annually, more than 15 million people suffer a stroke worldwide. We have developed a 7 degrees of freedom (DoF) exoskeleton robot named the smart robotic exoskeleton (SREx) to provide upper limb rehabilitation therapy. The robot is designed for adults and has an extended range of motion compared to our previously designed ETS-MARSE robot. While providing rehabilitation therapy, the exoskeleton robot is always subject to random disturbance. Moreover, these types of robots manage various patients and different degrees of impairment, which are quite impossible to model and incorporate into the robot dynamics. We hypothesize that a model-independent controller, such as a PID controller, is most suitable for maneuvering a therapeutic exoskeleton robot to provide rehabilitation therapy. This research implemented a model-free proportional–integral–derivative (PID) controller to maneuver a complex 7 DoF anthropomorphic exoskeleton robot (i.e., SREx) to provide a wide variety of upper limb exercises to the different subjects. The robustness and trajectory tracking performance of the PID controller was evaluated with experiments. The results show that a PID controller can effectively control a highly nonlinear and complex exoskeleton-type robot.
Starting Page	3747
e-ISSN	14248220
DOI	10.3390/s22103747
Journal	Sensors
Issue Number	10
Volume Number	22
Language	English
Publisher	MDPI
Publisher Date	2022-05-14
Access Restriction	Open
Subject Keyword	Sensors Industrial Engineering Exoskeleton Robot Upper Limb Rehabilitation Passive Rehabilitation Exercise Pid Motion Control Trajectory Tracking
Content Type	Text
Resource Type	Article

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