DocumentCode
1813741
Title
Frictionless control of robot arm with sliding mode observer
Author
Sawut, Umerujan ; Umeda, Nobuhiro ; Park, Kang-Bark ; Hanamoto, Tsuyoshi ; Tsuji, Teruo
Author_Institution
Dept. of Electr. Eng., Kyushu Inst. of Technol., Kitakyushu, Japan
fYear
2001
fDate
2001
Firstpage
61
Lastpage
66
Abstract
In this paper, the authors consider a one-link robot arm, and the purpose of this study is to realize a frictionless joint of the arm of a robot. In order to do so, compensation of not only friction but also spring effect in harmonic gear which is set on the motor shaft is required. For their compensation, the authors consider a nonlinear sliding mode disturbance observer, and removing the effect of the disturbance by the observer, the parameters of the system are identified by a GA (genetic algorithm). The disturbance observer is also implemented in a controller in an online manner, so that frictionless jointing of the arm of the robot is realized. In order to verify the frictionless joint by compensation of the disturbance, the authors try to set the spring characteristics for the joint by a control design. The effectiveness of their proposal is verified by simulation and experimental results
Keywords
compensation; control system analysis; control system synthesis; electric control equipment; electric motors; friction; genetic algorithms; machine theory; observers; robots; variable structure systems; control design; control simulation; friction compensation; frictionless control scheme; genetic algorithm; harmonic gear; nonlinear sliding mode disturbance observer; one-link robot arm; sliding mode observer; spring effect compensation; Control design; Friction; Gears; Modeling; Proposals; Robot control; Robot sensing systems; Shafts; Sliding mode control; Springs;
fLanguage
English
Publisher
ieee
Conference_Titel
Vehicle Electronics Conference, 2001. IVEC 2001. Proceedings of the IEEE International
Conference_Location
Tottori
Print_ISBN
0-7803-7229-8
Type
conf
DOI
10.1109/IVEC.2001.961727
Filename
961727
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