Evaluation of force tracking controller with soft exosuit for hip extension assistance

Hao Su; Ye Ding; Ignacio Galiana; Jozefien Speeckaert; Nikos Karavas; Philippe Malcolm; Christopher Siviy; Conor J. Walsh

doi:10.1007/978-3-319-46532-6_18

Evaluation of force tracking controller with soft exosuit for hip extension assistance

Hao Su, Ye Ding, Ignacio Galiana, Jozefien Speeckaert, Nikos Karavas, Philippe Malcolm, Christopher Siviy, Conor J. Walsh

Biomedical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

This abstract describes the design and experimental evaluation of a force tracking controller for hip extension assistance utilizing a soft exosuit connected to a tethered off-board actuation system. The new controller aims to improve the force profile tracking capability and demonstrate its advantages over our previously reported work. The controller was evaluated by one healthy participant walking on a treadmill at 1.35 m/s. Results showed that the system can deliver a predefined force profile robustly with a 200 N peak force. The measured peak force value using force controller was 198.7 ± 2.9 N, and the root-mean-squared (RMS) error was 3.4 N (1.7% of desired peak force). These results indicate that the force control reduces peak force variability and improves force profile tracking capability.

Original language	English (US)
Title of host publication	Biosystems and Biorobotics
Publisher	Springer International Publishing
Pages	107-111
Number of pages	5
DOIs	https://doi.org/10.1007/978-3-319-46532-6_18
State	Published - 2017

Publication series

Name	Biosystems and Biorobotics
Volume	16
ISSN (Print)	2195-3562
ISSN (Electronic)	2195-3570

ASJC Scopus subject areas

Biomedical Engineering
Mechanical Engineering
Artificial Intelligence

Access to Document

10.1007/978-3-319-46532-6_18

Cite this

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abstract = "This abstract describes the design and experimental evaluation of a force tracking controller for hip extension assistance utilizing a soft exosuit connected to a tethered off-board actuation system. The new controller aims to improve the force profile tracking capability and demonstrate its advantages over our previously reported work. The controller was evaluated by one healthy participant walking on a treadmill at 1.35 m/s. Results showed that the system can deliver a predefined force profile robustly with a 200 N peak force. The measured peak force value using force controller was 198.7 ± 2.9 N, and the root-mean-squared (RMS) error was 3.4 N (1.7% of desired peak force). These results indicate that the force control reduces peak force variability and improves force profile tracking capability.",

author = "Hao Su and Ye Ding and Ignacio Galiana and Jozefien Speeckaert and Nikos Karavas and Philippe Malcolm and Christopher Siviy and Walsh, {Conor J.}",

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T1 - Evaluation of force tracking controller with soft exosuit for hip extension assistance

AU - Su, Hao

AU - Ding, Ye

AU - Galiana, Ignacio

AU - Speeckaert, Jozefien

AU - Karavas, Nikos

AU - Malcolm, Philippe

AU - Siviy, Christopher

AU - Walsh, Conor J.

PY - 2017

Y1 - 2017

N2 - This abstract describes the design and experimental evaluation of a force tracking controller for hip extension assistance utilizing a soft exosuit connected to a tethered off-board actuation system. The new controller aims to improve the force profile tracking capability and demonstrate its advantages over our previously reported work. The controller was evaluated by one healthy participant walking on a treadmill at 1.35 m/s. Results showed that the system can deliver a predefined force profile robustly with a 200 N peak force. The measured peak force value using force controller was 198.7 ± 2.9 N, and the root-mean-squared (RMS) error was 3.4 N (1.7% of desired peak force). These results indicate that the force control reduces peak force variability and improves force profile tracking capability.

AB - This abstract describes the design and experimental evaluation of a force tracking controller for hip extension assistance utilizing a soft exosuit connected to a tethered off-board actuation system. The new controller aims to improve the force profile tracking capability and demonstrate its advantages over our previously reported work. The controller was evaluated by one healthy participant walking on a treadmill at 1.35 m/s. Results showed that the system can deliver a predefined force profile robustly with a 200 N peak force. The measured peak force value using force controller was 198.7 ± 2.9 N, and the root-mean-squared (RMS) error was 3.4 N (1.7% of desired peak force). These results indicate that the force control reduces peak force variability and improves force profile tracking capability.

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Evaluation of force tracking controller with soft exosuit for hip extension assistance

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