Research on the Control System of the Lower Limb Rehabilitation Robot under the Single Degree of Freedom

Ming Xiong

doi:10.4028/www.scientific.net/AMM.643.15

Paper Titles

Preface and Organizing Committee

Coordination and Robust Tuning PSS for Power Systems Using Multiobjective New Hybridation Technic
p.3

System of Telecontrol by the Mobile Robot with Movable Camera
p.9

Research on the Control System of the Lower Limb Rehabilitation Robot under the Single Degree of Freedom
p.15

Design of Remote Control Parking Lock Based on KEELOQ Encryption Technology
p.21

Research on Automatic Driving Control System for Coach Collision Test
p.25

Simulation Reach of Permanent Magnet Synchronous Motor System Based on Speed Sensor-Less Direct Torque Control
p.32

Study on Stator-Flux Oriented Vector Control System of Doubly-Fed Machines
p.37

Analysis of Dynamic Characteristics of Automatic Transmission Shifting Control
p.42

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 643Research on the Control System of the Lower Limb...

Research on the Control System of the Lower Limb Rehabilitation Robot under the Single Degree of Freedom

Abstract:

This paper studies the PID control algorithm of foot-pedal lower limb rehabilitation robot which can be viewed as a single closed-loop DC speed regulating system. It is necessary to ensure the steady state of the system under various types of interference and the setting of PID parameters will take a lot of time and energy. For this reason, GA (Genetic Algorithms) is used to set the PID parameters in this paper, PID parameters optimized by different goal functions are presented. The simulation results show that the GA simplifies the setting of PID parameters, for different goal functions make the system outputs have different characteristics.

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Periodical:

Applied Mechanics and Materials (Volume 643)

Pages:

15-20

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.643.15

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Online since:

September 2014

Authors:

Ming Xiong*

Keywords:

GA, Goal Function, Rehabilitation Robot, Single Close-Loop DC Speed Regulating System

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* - Corresponding Author

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