Optimal Control and Biomechanics of Ambulation with Spring-Loaded Crunches

Guangyu Liu; Yanxin Zhang; Sheng Quan Xie; Anke Xue

doi:10.5772/10664

Optimal Control and Biomechanics of Ambulation with Spring-Loaded Crunches

Guangyu Liu
, Yanxin Zhang
, Sheng Quan Xie
, Anke Xue

Hangzhou Dianzi University
The University of Auckland

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

2 Scopus citations

Abstract

Standard underarm or forearm crutches have some drawbacks induced by their rigid legs. Spingloaded crutches can reduce the impact effect. However, whether or not they also improve propulsion is an open problem. We formulate a problem of the optimal performance of spring-loaded crutches and propose a numerical approach to solve the problem. Then, the numerical optimal values are incorporated to the innovative design of a pair of spring-loaded crutches. To evaluate the crutches' performance, we have conducted standard biomechanical experiments for a number of male subjects under two conditions: walking with standard crutches and with spring-loaded crutches. Three dimensional kinematic data and ground reaction force were recorded and analysed. It was observed that optimized spring-loaded crutches can efficiently propel the crutch walkers, which conforms to the theory.

Original language	English
Pages (from-to)	461-469
Number of pages	9
Journal	International Journal of Advanced Robotic Systems
Volume	8
Issue number	3
DOIs	https://doi.org/10.5772/10664
State	Published - 1 Aug 2011
Externally published	Yes

Keywords

Biomechanics
Boundary Value Problem
Crunch Ambulation
Optimal Control

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10.5772/10664

Cite this

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title = "Optimal Control and Biomechanics of Ambulation with Spring-Loaded Crunches",

abstract = "Standard underarm or forearm crutches have some drawbacks induced by their rigid legs. Spingloaded crutches can reduce the impact effect. However, whether or not they also improve propulsion is an open problem. We formulate a problem of the optimal performance of spring-loaded crutches and propose a numerical approach to solve the problem. Then, the numerical optimal values are incorporated to the innovative design of a pair of spring-loaded crutches. To evaluate the crutches' performance, we have conducted standard biomechanical experiments for a number of male subjects under two conditions: walking with standard crutches and with spring-loaded crutches. Three dimensional kinematic data and ground reaction force were recorded and analysed. It was observed that optimized spring-loaded crutches can efficiently propel the crutch walkers, which conforms to the theory.",

keywords = "Biomechanics, Boundary Value Problem, Crunch Ambulation, Optimal Control",

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AU - Liu, Guangyu

AU - Zhang, Yanxin

AU - Xie, Sheng Quan

AU - Xue, Anke

N1 - Publisher Copyright: © SAGE Publications Ltd, unless otherwise noted. Manuscript content on this site is licensed under Creative Commons Licenses.

PY - 2011/8/1

Y1 - 2011/8/1

N2 - Standard underarm or forearm crutches have some drawbacks induced by their rigid legs. Spingloaded crutches can reduce the impact effect. However, whether or not they also improve propulsion is an open problem. We formulate a problem of the optimal performance of spring-loaded crutches and propose a numerical approach to solve the problem. Then, the numerical optimal values are incorporated to the innovative design of a pair of spring-loaded crutches. To evaluate the crutches' performance, we have conducted standard biomechanical experiments for a number of male subjects under two conditions: walking with standard crutches and with spring-loaded crutches. Three dimensional kinematic data and ground reaction force were recorded and analysed. It was observed that optimized spring-loaded crutches can efficiently propel the crutch walkers, which conforms to the theory.

AB - Standard underarm or forearm crutches have some drawbacks induced by their rigid legs. Spingloaded crutches can reduce the impact effect. However, whether or not they also improve propulsion is an open problem. We formulate a problem of the optimal performance of spring-loaded crutches and propose a numerical approach to solve the problem. Then, the numerical optimal values are incorporated to the innovative design of a pair of spring-loaded crutches. To evaluate the crutches' performance, we have conducted standard biomechanical experiments for a number of male subjects under two conditions: walking with standard crutches and with spring-loaded crutches. Three dimensional kinematic data and ground reaction force were recorded and analysed. It was observed that optimized spring-loaded crutches can efficiently propel the crutch walkers, which conforms to the theory.

KW - Biomechanics

KW - Boundary Value Problem

KW - Crunch Ambulation

KW - Optimal Control

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JO - International Journal of Advanced Robotic Systems

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ER -

Optimal Control and Biomechanics of Ambulation with Spring-Loaded Crunches

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Keywords

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