A feasibility study of fuzzy FES controller based on cycle-to-cycle control: An experimental test of knee extension control

Takashi Watanabe; Tomoya Masuko; Achmad Arifin; Makoto Yoshizawa

doi:10.1093/ietisy/e91-d.3.865

A feasibility study of fuzzy FES controller based on cycle-to-cycle control: An experimental test of knee extension control

Takashi Watanabe, Tomoya Masuko, Achmad Arifin, Makoto Yoshizawa

MEN - Biomedical Engineering

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

Functional Electrical Stimulation (FES) can be effective in assisting or restoring paralyzed motor functions. The purpose of this study is to examine experimentally the fuzzy controller based on cycle-to-cycle control for FES-induced gait. A basic experimental test was performed on controlling maximum knee extension angle with normal subjects. In most of control trials, the joint angle was controlled well compensating changes in muscle responses to electrical stimulation. The results show that the fuzzy controller would be practical in clinical applications of gait control by FES. An automatic parameter tuning would be required practically for quick responses in reaching the target and in compensating the change in muscle responses without causing oscillating responses.

Original language	English
Pages (from-to)	865-868
Number of pages	4
Journal	IEICE Transactions on Information and Systems
Volume	E91-D
Issue number	3
DOIs	https://doi.org/10.1093/ietisy/e91-d.3.865
Publication status	Published - 2008 Mar

Keywords

Cycle-tocycle control
FES
Functional electrical stimulation
Fuzzy control
Knee joint

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10.1093/ietisy/e91-d.3.865

Cite this

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abstract = "Functional Electrical Stimulation (FES) can be effective in assisting or restoring paralyzed motor functions. The purpose of this study is to examine experimentally the fuzzy controller based on cycle-to-cycle control for FES-induced gait. A basic experimental test was performed on controlling maximum knee extension angle with normal subjects. In most of control trials, the joint angle was controlled well compensating changes in muscle responses to electrical stimulation. The results show that the fuzzy controller would be practical in clinical applications of gait control by FES. An automatic parameter tuning would be required practically for quick responses in reaching the target and in compensating the change in muscle responses without causing oscillating responses.",

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T1 - A feasibility study of fuzzy FES controller based on cycle-to-cycle control

T2 - An experimental test of knee extension control

AU - Watanabe, Takashi

AU - Masuko, Tomoya

AU - Arifin, Achmad

AU - Yoshizawa, Makoto

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N2 - Functional Electrical Stimulation (FES) can be effective in assisting or restoring paralyzed motor functions. The purpose of this study is to examine experimentally the fuzzy controller based on cycle-to-cycle control for FES-induced gait. A basic experimental test was performed on controlling maximum knee extension angle with normal subjects. In most of control trials, the joint angle was controlled well compensating changes in muscle responses to electrical stimulation. The results show that the fuzzy controller would be practical in clinical applications of gait control by FES. An automatic parameter tuning would be required practically for quick responses in reaching the target and in compensating the change in muscle responses without causing oscillating responses.

AB - Functional Electrical Stimulation (FES) can be effective in assisting or restoring paralyzed motor functions. The purpose of this study is to examine experimentally the fuzzy controller based on cycle-to-cycle control for FES-induced gait. A basic experimental test was performed on controlling maximum knee extension angle with normal subjects. In most of control trials, the joint angle was controlled well compensating changes in muscle responses to electrical stimulation. The results show that the fuzzy controller would be practical in clinical applications of gait control by FES. An automatic parameter tuning would be required practically for quick responses in reaching the target and in compensating the change in muscle responses without causing oscillating responses.

KW - Cycle-tocycle control

KW - FES

KW - Functional electrical stimulation

KW - Fuzzy control

KW - Knee joint

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A feasibility study of fuzzy FES controller based on cycle-to-cycle control: An experimental test of knee extension control

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Keywords

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