Prediction Algorithm of Parameters of Toe Clearance in the Swing Phase

The adaptive control of gait training robots is aimed at improving the gait performance by assisting motion. In conventional robotics, it has not been possible to adjust the robotic parameters by predicting the toe motion, which is considered a tripping risk indicator. The prediction of toe clearanc...

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Published in	Applied bionics and biomechanics Vol. 2019; no. 2019; pp. 1 - 10
Main Authors	Miyake, Tamon, Sugano, Shigeki, Fujie, Masakatsu G.
Format	Journal Article
Language	English
Published	Cairo, Egypt Hindawi Publishing Corporation 2019 Hindawi John Wiley & Sons, Inc Wiley
Subjects	Adaptive control Algorithms Angular velocity Ankle Artificial intelligence Brain research Clearances Data points Engineering Gait Hip Knee Machine learning Motion capture Parameters Predictions Radial basis function Risk reduction Robot control Robotics Robots Root-mean-square errors Sensors Toe Treadmills Walking
Online Access	Get full text
ISSN	1176-2322 1754-2103 1754-2103
DOI	10.1155/2019/4502719

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Abstract	The adaptive control of gait training robots is aimed at improving the gait performance by assisting motion. In conventional robotics, it has not been possible to adjust the robotic parameters by predicting the toe motion, which is considered a tripping risk indicator. The prediction of toe clearance during walking can decrease the risk of tripping. In this paper, we propose a novel method of predicting toe clearance that uses a radial basis function network. The input data were the angles, angular velocities, and angular accelerations of the hip, knee, and ankle joints in the sagittal plane at the beginning of the swing phase. In the experiments, seven subjects walked on a treadmill for 360 s. The radial basis function network was trained with gait data ranging from 20 to 200 data points and tested with 100 data points. The root mean square error between the true and predicted values was 3.28 mm for the maximum toe clearance in the earlier swing phase and 2.30 mm for the minimum toe clearance in the later swing phase. Moreover, using gait data of other five subjects, the root mean square error between the true and predicted values was 4.04 mm for the maximum toe clearance and 2.88 mm for the minimum toe clearance when the walking velocity changed. This provided higher prediction accuracy compared with existing methods. The proposed algorithm used the information of joint movements at the start of the swing phase and could predict both the future maximum and minimum toe clearances within the same swing phase.
AbstractList	The adaptive control of gait training robots is aimed at improving the gait performance by assisting motion. In conventional robotics, it has not been possible to adjust the robotic parameters by predicting the toe motion, which is considered a tripping risk indicator. The prediction of toe clearance during walking can decrease the risk of tripping. In this paper, we propose a novel method of predicting toe clearance that uses a radial basis function network. The input data were the angles, angular velocities, and angular accelerations of the hip, knee, and ankle joints in the sagittal plane at the beginning of the swing phase. In the experiments, seven subjects walked on a treadmill for 360 s. The radial basis function network was trained with gait data ranging from 20 to 200 data points and tested with 100 data points. The root mean square error between the true and predicted values was 3.28 mm for the maximum toe clearance in the earlier swing phase and 2.30 mm for the minimum toe clearance in the later swing phase. Moreover, using gait data of other five subjects, the root mean square error between the true and predicted values was 4.04 mm for the maximum toe clearance and 2.88 mm for the minimum toe clearance when the walking velocity changed. This provided higher prediction accuracy compared with existing methods. The proposed algorithm used the information of joint movements at the start of the swing phase and could predict both the future maximum and minimum toe clearances within the same swing phase. The adaptive control of gait training robots is aimed at improving the gait performance by assisting motion. In conventional robotics, it has not been possible to adjust the robotic parameters by predicting the toe motion, which is considered a tripping risk indicator. The prediction of toe clearance during walking can decrease the risk of tripping. In this paper, we propose a novel method of predicting toe clearance that uses a radial basis function network. The input data were the angles, angular velocities, and angular accelerations of the hip, knee, and ankle joints in the sagittal plane at the beginning of the swing phase. In the experiments, seven subjects walked on a treadmill for 360 s. The radial basis function network was trained with gait data ranging from 20 to 200 data points and tested with 100 data points. The root mean square error between the true and predicted values was 3.28 mm for the maximum toe clearance in the earlier swing phase and 2.30 mm for the minimum toe clearance in the later swing phase. Moreover, using gait data of other five subjects, the root mean square error between the true and predicted values was 4.04 mm for the maximum toe clearance and 2.88 mm for the minimum toe clearance when the walking velocity changed. This provided higher prediction accuracy compared with existing methods. The proposed algorithm used the information of joint movements at the start of the swing phase and could predict both the future maximum and minimum toe clearances within the same swing phase.The adaptive control of gait training robots is aimed at improving the gait performance by assisting motion. In conventional robotics, it has not been possible to adjust the robotic parameters by predicting the toe motion, which is considered a tripping risk indicator. The prediction of toe clearance during walking can decrease the risk of tripping. In this paper, we propose a novel method of predicting toe clearance that uses a radial basis function network. The input data were the angles, angular velocities, and angular accelerations of the hip, knee, and ankle joints in the sagittal plane at the beginning of the swing phase. In the experiments, seven subjects walked on a treadmill for 360 s. The radial basis function network was trained with gait data ranging from 20 to 200 data points and tested with 100 data points. The root mean square error between the true and predicted values was 3.28 mm for the maximum toe clearance in the earlier swing phase and 2.30 mm for the minimum toe clearance in the later swing phase. Moreover, using gait data of other five subjects, the root mean square error between the true and predicted values was 4.04 mm for the maximum toe clearance and 2.88 mm for the minimum toe clearance when the walking velocity changed. This provided higher prediction accuracy compared with existing methods. The proposed algorithm used the information of joint movements at the start of the swing phase and could predict both the future maximum and minimum toe clearances within the same swing phase.
Author	Miyake, Tamon Sugano, Shigeki Fujie, Masakatsu G.
AuthorAffiliation	1 Graduate School of Creative Science and Engineering, Waseda University, Tokyo, Japan 2 Faculty of Science and Engineering, Waseda University, Tokyo, Japan
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/31485267$$D View this record in MEDLINE/PubMed
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CitedBy_id	crossref_primary_10_3390_app14156705 crossref_primary_10_3390_s22186960 crossref_primary_10_1016_j_bspc_2024_106150 crossref_primary_10_1097_CM9_0000000000002509
Cites_doi	10.1016/j.gaitpost.2007.10.006 10.1016/j.gaitpost.2016.01.014 10.1016/j.jbiomech.2011.01.034 10.1109/TBME.2012.2216263 10.1016/j.jbiomech.2015.10.040 10.1682/jrrd.2005.02.0046 10.1007/s002210050738 10.1023/A:1020971504868 10.1109/tsmcb.2012.2222374 10.1093/ageing/17.6.365 10.1109/TNSRE.2005.848628 10.3390/s140916212 10.1088/0967-3334/34/5/541 10.1109/TNSRE.2008.2008280 10.1109/TNSRE.2015.2511448 10.1016/S1350-4533(03)00116-4 10.1016/j.gaitpost.2012.06.017 10.1109/7333.928571 10.1007/s00221-010-2385-1 10.1016/j.jbiomech.2010.07.003 10.1523/JNEUROSCI.2644-07.2007 10.1016/j.humov.2010.07.009 10.1109/JBHI.2012.2237034 10.1007/978-3-642-33191-6_13 10.3390/s140202776 10.5249/jivr.v5i1.177 10.1152/jn.00832.2009
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Copyright	Copyright © 2019 Tamon Miyake et al. Copyright © 2019 Tamon Miyake et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. http://creativecommons.org/licenses/by/4.0 Copyright © 2019 Tamon Miyake et al. 2019
Copyright_xml	– notice: Copyright © 2019 Tamon Miyake et al. – notice: Copyright © 2019 Tamon Miyake et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. http://creativecommons.org/licenses/by/4.0 – notice: Copyright © 2019 Tamon Miyake et al. 2019
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References	22 23 24 26 27 28 29 30 31 10 11 12 13 14 15 (20) 2009; 1 16 18 19 1 3 4 5 6 7 8 (2) 1984; 141 9 21
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Snippet	The adaptive control of gait training robots is aimed at improving the gait performance by assisting motion. In conventional robotics, it has not been possible...
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SubjectTerms	Adaptive control Algorithms Angular velocity Ankle Artificial intelligence Brain research Clearances Data points Engineering Gait Hip Knee Machine learning Motion capture Parameters Predictions Radial basis function Risk reduction Robot control Robotics Robots Root-mean-square errors Sensors Toe Treadmills Walking
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Title	Prediction Algorithm of Parameters of Toe Clearance in the Swing Phase
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