DocumentCode
2743297
Title
An adaptive M-wave canceler for the EMG controlled functional electrical stimulator and its FPGA implementation
Author
Yeom, H.J. ; Park, Y.C. ; Yoon, Y.R. ; Shin, T.M. ; Yoon, H.R.
Author_Institution
Res. Inst. for Medical Instruments, Yonsei Univ., South Korea
Volume
2
fYear
2004
fDate
1-5 Sept. 2004
Firstpage
4122
Lastpage
4125
Abstract
Biopotential signals have been used as command and feedback signals in systems using electrical stimulation of motor nerves to restore the lost function. In order to use the voluntary electromyography (EMG) as a control signal for the functional electrical stimulation of the same muscle, it is necessary to suppress the M-wave evoked by the electrical stimulation. We present a Gram-Schmidt (GS) prediction error filter which effectively eliminates the M-wave from voluntary EMG. The GS filter has systolic array structure, so it offers advantages for the real-time processing on the field programmable gate array (FPGA). On basis of the data obtained from model for M-wave and voluntary EMG and from CNS injury patient, the proposed GS filter showed a very promising performance.
Keywords
electromyography; field programmable gate arrays; medical signal processing; neuromuscular stimulation; EMG controlled functional electrical stimulator; Gram-Schmidt prediction error filter; adaptive M-wave canceler; biopotential signals; central nervous system injury patient; command signals; feedback signals; field programmable gate array; motor nerves; muscle; systolic array structure; Adaptive control; Electrical stimulation; Electromyography; Feedback; Field programmable gate arrays; Filters; Muscles; Neuromuscular stimulation; Programmable control; Signal restoration; FES; FPGA; Gram-Schmidt; M-wave;
fLanguage
English
Publisher
ieee
Conference_Titel
Engineering in Medicine and Biology Society, 2004. IEMBS '04. 26th Annual International Conference of the IEEE
Conference_Location
San Francisco, CA
Print_ISBN
0-7803-8439-3
Type
conf
DOI
10.1109/IEMBS.2004.1404150
Filename
1404150
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