Maximum-Entropy-Rate Selection of Features for Classifying Changes in Knee and Ankle Dynamics During Running

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Einicke, Garry Allan
Sabti, Haider A
Thiel, David
Fernandez, Marta
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2018
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Abstract

This paper investigates deteriorations in knee and ankle dynamics during running. Changes in lower limb accelerations are analyzed by a wearable musculo-skeletal monitoring system. The system employs a machine learning technique to classify joint stiffness. A maximum-entropyrate method is developed to select the most relevant features. Experimental results demonstrate that distance travelled and energy expended can be estimated from observed changes in knee and ankle motions during 5 km runs.

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IEEE Journal of Biomedical and Health Informatics

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This publication has been entered into Griffith Research Online as an Advanced Online Version.

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Biomechanical engineering

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