Design and Analysis of a Lower Limb Loadbearing Exoskeleton

Qiying Su; Zhongcai Pei; Zhiyong Tang; Quan Liang

doi:10.3390/act11100285

Design and Analysis of a Lower Limb Loadbearing Exoskeleton

Qiying Su
, Zhongcai Pei
, Zhiyong Tang^*
, Quan Liang

^*Corresponding author for this work

School of Automation Science and Electrical Engineering

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

8 Scopus citations

Abstract

In recent years, the lower limb exoskeleton has been more and more widely used in military, medical and other fields. In this paper, the muscle–bone model of the lower limb during the human walking process is analyzed, and a lower limb exoskeleton with the purpose of loadbearing is designed. The exoskeleton is driven by four hydraulic cylinders to the hip and knee joints whose design load is 50 kg. The kinematic and dynamic model of the exoskeleton designed in this paper is established and analyzed, and it is simulated. Finally, the experiments were carried out on the exoskeleton test platform to verify that the stability, bearing capacity, tracking effect and durability of the exoskeleton can meet the requirements.

Original language	English
Article number	285
Journal	Actuators
Volume	11
Issue number	10
DOIs	https://doi.org/10.3390/act11100285
State	Published - Oct 2022

Keywords

dynamic modelling
experiment
finite element analysis
lower limb loadbearing exoskeleton
musculoskeletal model
simulation
structure design

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10.3390/act11100285

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title = "Design and Analysis of a Lower Limb Loadbearing Exoskeleton",

abstract = "In recent years, the lower limb exoskeleton has been more and more widely used in military, medical and other fields. In this paper, the muscle–bone model of the lower limb during the human walking process is analyzed, and a lower limb exoskeleton with the purpose of loadbearing is designed. The exoskeleton is driven by four hydraulic cylinders to the hip and knee joints whose design load is 50 kg. The kinematic and dynamic model of the exoskeleton designed in this paper is established and analyzed, and it is simulated. Finally, the experiments were carried out on the exoskeleton test platform to verify that the stability, bearing capacity, tracking effect and durability of the exoskeleton can meet the requirements.",

keywords = "dynamic modelling, experiment, finite element analysis, lower limb loadbearing exoskeleton, musculoskeletal model, simulation, structure design",

author = "Qiying Su and Zhongcai Pei and Zhiyong Tang and Quan Liang",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = oct,

doi = "10.3390/act11100285",

language = "英语",

volume = "11",

journal = "Actuators",

issn = "2076-0825",

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TY - JOUR

T1 - Design and Analysis of a Lower Limb Loadbearing Exoskeleton

AU - Su, Qiying

AU - Pei, Zhongcai

AU - Tang, Zhiyong

AU - Liang, Quan

PY - 2022/10

Y1 - 2022/10

N2 - In recent years, the lower limb exoskeleton has been more and more widely used in military, medical and other fields. In this paper, the muscle–bone model of the lower limb during the human walking process is analyzed, and a lower limb exoskeleton with the purpose of loadbearing is designed. The exoskeleton is driven by four hydraulic cylinders to the hip and knee joints whose design load is 50 kg. The kinematic and dynamic model of the exoskeleton designed in this paper is established and analyzed, and it is simulated. Finally, the experiments were carried out on the exoskeleton test platform to verify that the stability, bearing capacity, tracking effect and durability of the exoskeleton can meet the requirements.

AB - In recent years, the lower limb exoskeleton has been more and more widely used in military, medical and other fields. In this paper, the muscle–bone model of the lower limb during the human walking process is analyzed, and a lower limb exoskeleton with the purpose of loadbearing is designed. The exoskeleton is driven by four hydraulic cylinders to the hip and knee joints whose design load is 50 kg. The kinematic and dynamic model of the exoskeleton designed in this paper is established and analyzed, and it is simulated. Finally, the experiments were carried out on the exoskeleton test platform to verify that the stability, bearing capacity, tracking effect and durability of the exoskeleton can meet the requirements.

KW - dynamic modelling

KW - experiment

KW - finite element analysis

KW - lower limb loadbearing exoskeleton

KW - musculoskeletal model

KW - simulation

KW - structure design

UR - https://www.scopus.com/pages/publications/85140402709

U2 - 10.3390/act11100285

DO - 10.3390/act11100285

M3 - 文章

AN - SCOPUS:85140402709

SN - 2076-0825

VL - 11

JO - Actuators

JF - Actuators

IS - 10

M1 - 285

ER -

Design and Analysis of a Lower Limb Loadbearing Exoskeleton

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