An EMG controlled robotic manipulator using neural networks

Author

Fukuda, Osamu ; Tsuji, Toshio ; Kaneko, Makoto

Author_Institution

Dept. of Ind. & Syst. Eng., Hiroshima Univ., Japan

fYear

1997

fDate

29 Sep-1 Oct 1997

Firstpage

442

Lastpage

447

Abstract

This paper proposes an adaptive human-robot interface using a statistical neural network which consists of a forearm controller and an upper arm controller. The forearm controller selects an active joint out of three joint degrees of freedom, and controls its driving speed or grip force according to EMG signals measured from a human operator. The upper arm controller controls the joint angle of the upper arm according to the position of the operator´s wrist joint as measured by a 3D position sensor. Experiments have shown that the EMG patterns during forearm and hand movements can be classified with high accuracy using our network to be of use as an assistive device for a handicapped person

Keywords

biocontrol; electromyography; handicapped aids; learning (artificial intelligence); manipulators; motion control; neural nets; position control; telerobotics; EMG controlled robotic manipulator; EMG signals; active joint; adaptive human-robot interface; assistive device; forearm controller; hand movements; handicapped person; human operator; statistical neural network; upper arm controller; Adaptive control; Electromyography; Force control; Force measurement; Force sensors; Manipulators; Neural networks; Programmable control; Robot control; Velocity measurement;

fLanguage

English

Publisher

ieee

Conference_Titel

Robot and Human Communication, 1997. RO-MAN '97. Proceedings., 6th IEEE International Workshop on

Conference_Location

Sendai

Print_ISBN

0-7803-4076-0

Type

conf

DOI

10.1109/ROMAN.1997.647027

Filename

647027