Thesis Open Access
DESIGN AND ANALYSIS OF FUZZY BASED PID CONTROLLER FOR ELBOW-FOREARM REHABILITATION ROBOT
ALEME ADDISIE
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"description": "<p>Nowadays, the use of Rehabilitation Robots for stroke patients has been growing rapidly.<br>\nHowever, there was a limited scope of using such Rehabilitation Robots for patients suffer<br>\nfrom accidental physical fracture. Since the pain condition of such accidents need a critical<br>\ntreatment, Precise control of such robotic manipulator is mandatory.<br>\nThis thesis presents the design of Elbow-forearm rehabilitation robot by considering the<br>\npain level of the patient. It Includes the mechatronic design processes such as mechanical<br>\ndesign, controller design, and Vertual prototyping using ADAMS-MATLAB Co-simulation.<br>\nBy reviewing different literature, the mechanical model is designed using concept generation<br>\nby considering the Ergonomics and other aspects of the patient. Then the model is<br>\ndeveloped using Solidwork 2018. The pain level is estimated using three parameters i.e the<br>\npatient general condition, the muscle strain, and the duration of exercise from the beginning<br>\nof rehabilitation. Using these three input parameters, the manipulator’s desired range<br>\nof motion has been determined using Fuzzy Logic System. The output of this fuzzy logic<br>\nsystem would be an input to the main control system.<br>\nThe vertual prototype is realized by the ADAMS-MATLAB Co-simulation using the developed<br>\nPID control block on simulink. The Co-simulation is carried out using three reference<br>\ninputs i.e Step, sinusoidal and the proposed fuzzy reference input</p>",
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- Publication date:
- October 1, 2019
- DOI:
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- License (for files):
- Creative Commons Attribution