A Novel Series Elastic Actuator With Variable Transmission Ratio Using Reconfigurable Epicyclic Gearing for Hip Exoskeletons

Tianci Wang; Hao Wen; Yong Chen; Chunhua Liu

doi:10.1109/TIE.2024.3429609

A Novel Series Elastic Actuator With Variable Transmission Ratio Using Reconfigurable Epicyclic Gearing for Hip Exoskeletons

Tianci Wang, Hao Wen, Yong Chen, Chunhua Liu^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

1 Citation (Scopus)

Abstract

Series elastic actuators (SEAs) are extensively employed in exoskeletons due to high actuation transparency, reliable back-drivability, and accurate force control. However, existing SEAs designed for exoskeletons fail to deliver a wide range of torque-speed characteristics for activities including walking, running, ramp ascent, and ramp descent. In this study, a novel variable transmission SEA that incorporates reconfigurable epicyclic gearing and two clutches is presented to achieve three distinct speed-torque characteristics and enhance transparency. To ensure robust position tracking for the actuator in torque-speed characteristics switching, a disturbance observer is developed to estimate the lumped disturbance induced by external load and internal modeling uncertainties. Comparative experimental results demonstrate that, under unload and load conditions, the sinusoidal tracking error of the proposed controller is reduced by more than 30% compared to the controller without a disturbance observer, and the energy consumption of the actuator system is reduced by more than 40% compared to traditional SEAs. © 2024 IEEE

Original language	English
Pages (from-to)	1816 - 1828
Number of pages	13
Journal	IEEE Transactions on Industrial Electronics
Volume	72
Issue number	2
Online published	2 Aug 2024
DOIs	https://doi.org/10.1109/TIE.2024.3429609
Publication status	Published - Feb 2025

Funding

This work was supported in part by the Science Technology and Innovation Committee of Shenzhen Municipality, Shenzhen, China under Project JCYJ20210324134005015; in part by a Collaborative Research Fund from the Research Grants Council, Hong Kong SAR under CRF Project C1052-21GF; and in part by the RGC Research Fellow Scheme from Research Grants Council, Hong Kong SAR under RGC Ref. RFS2223-1S05.

Research Keywords

Disturbance observer
position tracking
torque-speed characteristics switching
variable transmission series elastic actuator (VTSEA))

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title = "A Novel Series Elastic Actuator With Variable Transmission Ratio Using Reconfigurable Epicyclic Gearing for Hip Exoskeletons",

abstract = "Series elastic actuators (SEAs) are extensively employed in exoskeletons due to high actuation transparency, reliable back-drivability, and accurate force control. However, existing SEAs designed for exoskeletons fail to deliver a wide range of torque-speed characteristics for activities including walking, running, ramp ascent, and ramp descent. In this study, a novel variable transmission SEA that incorporates reconfigurable epicyclic gearing and two clutches is presented to achieve three distinct speed-torque characteristics and enhance transparency. To ensure robust position tracking for the actuator in torque-speed characteristics switching, a disturbance observer is developed to estimate the lumped disturbance induced by external load and internal modeling uncertainties. Comparative experimental results demonstrate that, under unload and load conditions, the sinusoidal tracking error of the proposed controller is reduced by more than 30% compared to the controller without a disturbance observer, and the energy consumption of the actuator system is reduced by more than 40% compared to traditional SEAs. {\textcopyright} 2024 IEEE",

keywords = "Disturbance observer, position tracking, torque-speed characteristics switching, variable transmission series elastic actuator (VTSEA))",

author = "Tianci Wang and Hao Wen and Yong Chen and Chunhua Liu",

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doi = "10.1109/TIE.2024.3429609",

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T1 - A Novel Series Elastic Actuator With Variable Transmission Ratio Using Reconfigurable Epicyclic Gearing for Hip Exoskeletons

AU - Wang, Tianci

AU - Wen, Hao

AU - Chen, Yong

AU - Liu, Chunhua

PY - 2025/2

Y1 - 2025/2

N2 - Series elastic actuators (SEAs) are extensively employed in exoskeletons due to high actuation transparency, reliable back-drivability, and accurate force control. However, existing SEAs designed for exoskeletons fail to deliver a wide range of torque-speed characteristics for activities including walking, running, ramp ascent, and ramp descent. In this study, a novel variable transmission SEA that incorporates reconfigurable epicyclic gearing and two clutches is presented to achieve three distinct speed-torque characteristics and enhance transparency. To ensure robust position tracking for the actuator in torque-speed characteristics switching, a disturbance observer is developed to estimate the lumped disturbance induced by external load and internal modeling uncertainties. Comparative experimental results demonstrate that, under unload and load conditions, the sinusoidal tracking error of the proposed controller is reduced by more than 30% compared to the controller without a disturbance observer, and the energy consumption of the actuator system is reduced by more than 40% compared to traditional SEAs. © 2024 IEEE

AB - Series elastic actuators (SEAs) are extensively employed in exoskeletons due to high actuation transparency, reliable back-drivability, and accurate force control. However, existing SEAs designed for exoskeletons fail to deliver a wide range of torque-speed characteristics for activities including walking, running, ramp ascent, and ramp descent. In this study, a novel variable transmission SEA that incorporates reconfigurable epicyclic gearing and two clutches is presented to achieve three distinct speed-torque characteristics and enhance transparency. To ensure robust position tracking for the actuator in torque-speed characteristics switching, a disturbance observer is developed to estimate the lumped disturbance induced by external load and internal modeling uncertainties. Comparative experimental results demonstrate that, under unload and load conditions, the sinusoidal tracking error of the proposed controller is reduced by more than 30% compared to the controller without a disturbance observer, and the energy consumption of the actuator system is reduced by more than 40% compared to traditional SEAs. © 2024 IEEE

KW - Disturbance observer

KW - position tracking

KW - torque-speed characteristics switching

KW - variable transmission series elastic actuator (VTSEA))

U2 - 10.1109/TIE.2024.3429609

DO - 10.1109/TIE.2024.3429609

M3 - RGC 21 - Publication in refereed journal

SN - 0278-0046

VL - 72

SP - 1816

EP - 1828

JO - IEEE Transactions on Industrial Electronics

JF - IEEE Transactions on Industrial Electronics

IS - 2

ER -

A Novel Series Elastic Actuator With Variable Transmission Ratio Using Reconfigurable Epicyclic Gearing for Hip Exoskeletons

Abstract

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Research Keywords

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RFS: Development of Advanced Electric Machines and Smart Power Drives for Electric Propulsion

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