Multi-muscle functional electrical stimulation based wrist tremor suppression using repetitive control
Multi-muscle functional electrical stimulation based wrist tremor suppression using repetitive control
Wrist motion is produced by a group of muscles acting in a coordinated way. However, existing functional electrical stimulation (FES)-based wrist tremor suppression methods just stimulate one pair of muscles, which can limit the tremor suppression performance and cause muscle fatigue. To address these problems, this article proposes a multimuscle FES-based wrist tremor suppression method by fully considering the properties of wrist motion. First, with the consideration of the mainly involved two pairs of muscles in wrist flexion and extension motion, a multimuscle wrist musculoskeletal model with a Hammerstein structure is developed, and the parameters are identified. Then, a feedback repetitive controller combined with a feedforward linearization controller is proposed for tremor suppression. A frequency-modified inverse repetitive control algorithm and a gradient-based repetitive control algorithm are put forward to regulate the FES level properly. Finally, experiments on both unimpaired subjects and intention tremor patients verify that compared to the existing single-muscle-pair FES-based methods, the proposed methods can substantially improve the performance of tremor suppression and effectively reduce the level of electrical stimulation significantly, thereby reducing muscle fatigue.
Experimental verification, Iron, Muscles, Musculoskeletal system, Recruitment, Stability analysis, Torque, Wrist, multimuscle functional electrical stimulation, musculoskeletal model, repetitive control (RC), wrist tremor suppression
3988-3998
Zhang, Zan
f21d5078-b218-40f1-91b6-dc0a06104522
Chu, Bing
555a86a5-0198-4242-8525-3492349d4f0f
Liu, Yanhong
c4b4a3da-3e3b-4cd0-8d54-2c3e40cfa4ea
Li, Zhe
c1336573-68c4-4c04-a52a-90ec49b8f004
Owens, David H.
dca0ba32-aba6-4bab-a511-9bd322da16df
1 October 2022
Zhang, Zan
f21d5078-b218-40f1-91b6-dc0a06104522
Chu, Bing
555a86a5-0198-4242-8525-3492349d4f0f
Liu, Yanhong
c4b4a3da-3e3b-4cd0-8d54-2c3e40cfa4ea
Li, Zhe
c1336573-68c4-4c04-a52a-90ec49b8f004
Owens, David H.
dca0ba32-aba6-4bab-a511-9bd322da16df
Zhang, Zan, Chu, Bing, Liu, Yanhong, Li, Zhe and Owens, David H.
(2022)
Multi-muscle functional electrical stimulation based wrist tremor suppression using repetitive control.
IEEE/ASME Transactions on Mechatronics, 27 (5), .
(doi:10.1109/TMECH.2022.3150301).
Abstract
Wrist motion is produced by a group of muscles acting in a coordinated way. However, existing functional electrical stimulation (FES)-based wrist tremor suppression methods just stimulate one pair of muscles, which can limit the tremor suppression performance and cause muscle fatigue. To address these problems, this article proposes a multimuscle FES-based wrist tremor suppression method by fully considering the properties of wrist motion. First, with the consideration of the mainly involved two pairs of muscles in wrist flexion and extension motion, a multimuscle wrist musculoskeletal model with a Hammerstein structure is developed, and the parameters are identified. Then, a feedback repetitive controller combined with a feedforward linearization controller is proposed for tremor suppression. A frequency-modified inverse repetitive control algorithm and a gradient-based repetitive control algorithm are put forward to regulate the FES level properly. Finally, experiments on both unimpaired subjects and intention tremor patients verify that compared to the existing single-muscle-pair FES-based methods, the proposed methods can substantially improve the performance of tremor suppression and effectively reduce the level of electrical stimulation significantly, thereby reducing muscle fatigue.
Text
multi-muslce20220106
- Accepted Manuscript
More information
e-pub ahead of print date: 24 February 2022
Published date: 1 October 2022
Additional Information:
Funding Information:
This work was supported in part by the National Key Research and Development Project under Grant 2020YFB1313701, in part by the National Natural Science Foundation of China under Grant 61803344 and Grant 62003309, and in part by the Outstanding Foreign Scientist Support Project in Henan Province under Grant GZS2019008.
Publisher Copyright:
© 1996-2012 IEEE.
Keywords:
Experimental verification, Iron, Muscles, Musculoskeletal system, Recruitment, Stability analysis, Torque, Wrist, multimuscle functional electrical stimulation, musculoskeletal model, repetitive control (RC), wrist tremor suppression
Identifiers
Local EPrints ID: 469352
URI: http://eprints.soton.ac.uk/id/eprint/469352
ISSN: 1083-4435
PURE UUID: 3df4b714-0c10-4642-930f-81c342d7b6eb
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Date deposited: 13 Sep 2022 16:55
Last modified: 17 Mar 2024 03:28
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Contributors
Author:
Zan Zhang
Author:
Bing Chu
Author:
Yanhong Liu
Author:
Zhe Li
Author:
David H. Owens
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