Linear and nonlinear approaches to control of single joint motion by functional electrical stimulation

Will Durfee; Daniel J. DiLorenzo

Linear and nonlinear approaches to control of single joint motion by functional electrical stimulation

Will Durfee, Daniel J. DiLorenzo

Research output: Contribution to journal › Conference article › peer-review

Abstract

Experimental and simulation work involving the control of a single joint acted on by electrically stimulated muscle is reviewed. Results for experimental work in control of the free-swinging human shank are presented for open-loop and PD closed-loop controllers as well as for a novel controller which makes use of a controllable friction brake which acted on the joint in combination with the electrical stimulation. Stimulation results are presented for computed torque, sliding mode, and adaptive sliding mode controllers. The simulations used a muscle model with a time-varying muscle gain to approximate effects of muscle fatigue. It is concluded that open-loop and fixed-parameter closed-loop controllers are inadequate for precision control of functional electrical stimulation (FES) systems.

Original language	English (US)
Pages (from-to)	1042-1045
Number of pages	4
Journal	Proceedings of the American Control Conference
State	Published - 1990
Externally published	Yes
Event	Proceedings of the 1990 American Control Conference - San Diego, CA, USA Duration: May 23 1990 → May 25 1990

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title = "Linear and nonlinear approaches to control of single joint motion by functional electrical stimulation",

abstract = "Experimental and simulation work involving the control of a single joint acted on by electrically stimulated muscle is reviewed. Results for experimental work in control of the free-swinging human shank are presented for open-loop and PD closed-loop controllers as well as for a novel controller which makes use of a controllable friction brake which acted on the joint in combination with the electrical stimulation. Stimulation results are presented for computed torque, sliding mode, and adaptive sliding mode controllers. The simulations used a muscle model with a time-varying muscle gain to approximate effects of muscle fatigue. It is concluded that open-loop and fixed-parameter closed-loop controllers are inadequate for precision control of functional electrical stimulation (FES) systems.",

author = "Will Durfee and DiLorenzo, {Daniel J.}",

year = "1990",

language = "English (US)",

pages = "1042--1045",

journal = "Proceedings of the American Control Conference",

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note = "Proceedings of the 1990 American Control Conference ; Conference date: 23-05-1990 Through 25-05-1990",

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T1 - Linear and nonlinear approaches to control of single joint motion by functional electrical stimulation

AU - Durfee, Will

AU - DiLorenzo, Daniel J.

PY - 1990

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N2 - Experimental and simulation work involving the control of a single joint acted on by electrically stimulated muscle is reviewed. Results for experimental work in control of the free-swinging human shank are presented for open-loop and PD closed-loop controllers as well as for a novel controller which makes use of a controllable friction brake which acted on the joint in combination with the electrical stimulation. Stimulation results are presented for computed torque, sliding mode, and adaptive sliding mode controllers. The simulations used a muscle model with a time-varying muscle gain to approximate effects of muscle fatigue. It is concluded that open-loop and fixed-parameter closed-loop controllers are inadequate for precision control of functional electrical stimulation (FES) systems.

AB - Experimental and simulation work involving the control of a single joint acted on by electrically stimulated muscle is reviewed. Results for experimental work in control of the free-swinging human shank are presented for open-loop and PD closed-loop controllers as well as for a novel controller which makes use of a controllable friction brake which acted on the joint in combination with the electrical stimulation. Stimulation results are presented for computed torque, sliding mode, and adaptive sliding mode controllers. The simulations used a muscle model with a time-varying muscle gain to approximate effects of muscle fatigue. It is concluded that open-loop and fixed-parameter closed-loop controllers are inadequate for precision control of functional electrical stimulation (FES) systems.

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M3 - Conference article

AN - SCOPUS:0025533076

SN - 0743-1619

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EP - 1045

JO - Proceedings of the American Control Conference

JF - Proceedings of the American Control Conference

T2 - Proceedings of the 1990 American Control Conference

Y2 - 23 May 1990 through 25 May 1990

ER -

Linear and nonlinear approaches to control of single joint motion by functional electrical stimulation

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