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Human Centered Design Methodologies Applied to Complex Research Projects: First Results of the PLEINAIR Project Read chapter Read first chapter

2020 | OriginalPaper | Chapter

Visualization of Features in Multivariate Gait Data: Use of a Deep Learning for the Visualization of Body Parts and Their Timing During Gait Training

Authors : Yusuke Osawa, Keiichi Watanuki, Kazunori Kaede, Keiichi Muramatsu

Published in: Advances in Industrial Design

Publisher: Springer International Publishing

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Abstract

In this study, we aimed to examine the usefulness of gait classification and feature visualization based on multivariate data for the development of a gait feedback training system capable of considering the physical differences among the trainees. The multivariate data considered in this study were the joint angles and the ground reaction forces. In addition, all multivariate gait data were labeled as gait “rarely associated with stumbling” or “frequently associated with stumbling”. A convolutional neural network was used to learn the gait features. Furthermore, the feature parts of the multivariate gait data used for classification were visualized on a heat map created using Grad-CAM. As the results indicate, a heatmap is able to show the feature parts of a gait frequently associated with stumbling, through which the trainee can adjust their gait.

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previous chapter Evaluation of the Attention Effect of the Fraser-Wilcox Illusion in a Visual Discrimination Task
next chapter A Comparative Study on the Communication Effect of Stage Performance Promotion Platforms Based on User Experience
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Stanton, R., Ada, L., Dean, C.M., Preston, E.: Biofeedback improves activities of the lower limb after stroke: a systematic review. J. Physiother. 57(3), 145–155 (2011)CrossRef
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Yusuke, O., Keiichi, W., Kazunori, K., Keiichi, M.: Study on gait discrimination method by deep learning for biofeedback training optimized for individuals. In: Karwowski, W., Ahram, T. (eds.) Intelligent Human Systems Integration 2019. Advances in Intelligent Systems and Computing, vol. 903, pp. 155–161. Springer, Cham (2019)CrossRef
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Ramprasaath R., Selvaraju, M.C., Abhishek, D., Ramakrishna, V., Devi, P., Dhruv, B.: Grad-CAM: visual explanations from deep networks via gradient-based localization. arXiv:​1610.​02391v3 (2017)
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Metadata
Title
Visualization of Features in Multivariate Gait Data: Use of a Deep Learning for the Visualization of Body Parts and Their Timing During Gait Training
Authors
Yusuke Osawa
Keiichi Watanuki
Kazunori Kaede
Keiichi Muramatsu
Copyright Year
2020
Book
Advances in Industrial Design

Print ISBN: 978-3-030-51193-7

Electronic ISBN: 978-3-030-51194-4

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-3-030-51194-4_132

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