A new strategy for multifunction myoelectric control

Author

Hudgins, Bernard ; Parker, Philip ; Scott, Robert N.

Author_Institution

Inst. of Biomed. Eng., New Brunswick Univ., Fredericton, NB, Canada

Volume

40

Issue

1

fYear

1993

Firstpage

82

Lastpage

94

Abstract

A novel approach to the control of a multifunction prosthesis based on the classification of myoelectric patterns is described. It is shown that the myoelectric signal exhibits a deterministic structure during the initial phase of a muscle contraction. Features are extracted from several time segments of the myoelectric signal to preserve pattern structure. These features are then classified using an artificial neural network. The control signals are derived from natural contraction patterns which can be produced reliably with little subject training. The new control scheme increases the number of functions which can be controlled by a single channel of myoelectric signal but does so in a way which does not increase the effort required by the amputee. Results are presented to support this approach.

Keywords

artificial limbs; biocontrol; bioelectric potentials; muscle; amputee; artificial limb control; artificial neural network; feature extraction; multifunction myoelectric control strategy; multifunction prosthesis; natural contraction patterns; pattern structure preservation; subject training; time segments; Artificial neural networks; Control systems; Data mining; Elbow; Feature extraction; Muscles; Prosthetics; Senior members; Switches; Wrist; Amputation; Artifacts; Bias (Epidemiology); Electrophysiology; Evaluation Studies as Topic; Humans; Isometric Contraction; Isotonic Contraction; Models, Neurological; Muscle Contraction; Neural Networks (Computer); Prostheses and Implants; Prosthesis Design; Signal Processing, Computer-Assisted;

fLanguage

English

Journal_Title

Biomedical Engineering, IEEE Transactions on

Publisher

ieee

ISSN

0018-9294

Type

jour

DOI

10.1109/10.204774

Filename

204774