Hand movements classification for myoelectric control system using adaptive resonance theory
Hand movements classification for myoelectric control system using adaptive resonance theory
This research proposes an exploratory study of a simple, accurate, and computationally efficient movement classification technique for prosthetic hand application. Surface myoelectric signals were acquired from the four muscles, namely, flexor carpi ulnaris, extensor carpi radialis, biceps brachii, and triceps brachii, of four normal-limb subjects. The signals were segmented, and the features were extracted with a new combined time-domain feature extraction method. Fuzzy C-means clustering method and scatter plot were used to evaluate the performance of the proposed multi-feature versus Hudgins’ multi-feature. The movements were classified with a hybrid Adaptive Resonance Theory-based neural network. Comparative results indicate that the proposed hybrid classifier not only has good classification accuracy (89.09 %) but also a significantly improved computation time.
85-102
Fariman, H. Jahani
82894837-3db2-4e79-ae2a-7fca36cffefc
Ahmad, Siti A.
acbeb287-5b41-4c24-be5e-c9032028a977
Marhaban, M. Hamiruce
7e202bc4-bae4-4def-beb7-1bb64ee8964e
Ghasab, M. Alijan
6d7eae6f-0942-4dce-8043-42080eb15464
Chappell, Paul H.
2d2ec52b-e5d0-4c36-ac20-0a86589a880e
March 2016
Fariman, H. Jahani
82894837-3db2-4e79-ae2a-7fca36cffefc
Ahmad, Siti A.
acbeb287-5b41-4c24-be5e-c9032028a977
Marhaban, M. Hamiruce
7e202bc4-bae4-4def-beb7-1bb64ee8964e
Ghasab, M. Alijan
6d7eae6f-0942-4dce-8043-42080eb15464
Chappell, Paul H.
2d2ec52b-e5d0-4c36-ac20-0a86589a880e
Fariman, H. Jahani, Ahmad, Siti A., Marhaban, M. Hamiruce, Ghasab, M. Alijan and Chappell, Paul H.
(2016)
Hand movements classification for myoelectric control system using adaptive resonance theory.
Australasian Physical & Engineering Sciences in Medicine, 39 (1), .
(doi:10.1007/s13246-015-0399-5).
Abstract
This research proposes an exploratory study of a simple, accurate, and computationally efficient movement classification technique for prosthetic hand application. Surface myoelectric signals were acquired from the four muscles, namely, flexor carpi ulnaris, extensor carpi radialis, biceps brachii, and triceps brachii, of four normal-limb subjects. The signals were segmented, and the features were extracted with a new combined time-domain feature extraction method. Fuzzy C-means clustering method and scatter plot were used to evaluate the performance of the proposed multi-feature versus Hudgins’ multi-feature. The movements were classified with a hybrid Adaptive Resonance Theory-based neural network. Comparative results indicate that the proposed hybrid classifier not only has good classification accuracy (89.09 %) but also a significantly improved computation time.
Text
Hand movements classification for myoelectric control system
- Accepted Manuscript
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Accepted/In Press date: 2 November 2015
e-pub ahead of print date: 18 November 2015
Published date: March 2016
Identifiers
Local EPrints ID: 413139
URI: http://eprints.soton.ac.uk/id/eprint/413139
PURE UUID: fd5a25b7-8a5c-4ede-9668-0d9be3edd3db
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Date deposited: 16 Aug 2017 16:30
Last modified: 15 Mar 2024 15:40
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Contributors
Author:
H. Jahani Fariman
Author:
Siti A. Ahmad
Author:
M. Hamiruce Marhaban
Author:
M. Alijan Ghasab
Author:
Paul H. Chappell
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