Estimation of knee joint angle during gait cycle using inertial measurement unit sensors: a method of sensor-to-clinical bone calibration on the lower limb skeletal model-Reference-Cited by-同舟云学术

Estimation of knee joint angle during gait cycle using inertial measurement unit sensors: a method of sensor-to-clinical bone calibration on the lower limb skeletal model

Published:2022 Issue:1 Volume:17 Page:21-00196-21-00196
ISSN:1880-9863
Container-title:Journal of Biomechanical Science and Engineering
language:en
Short-container-title:JBSE

Author:

WANG Sentong¹,CAI Yunan¹,HASE Kazunori²,UCHIDA Kazuo³,KONDO Daisuke³,SAITOU Tsuguya³,OTA Susumu⁴

Affiliation:

1. Graduate School of Systems Design, Tokyo Metropolitan University

2. Faculty of Systems Design, Tokyo Metropolitan University

3. Bridgestone Corporation

4. Department of Rehabilitation and Care, Seijoh University

Publisher

Japan Society of Mechanical Engineers

Subject

Biomedical Engineering

Link

https://www.jstage.jst.go.jp/article/jbse/17/1/17_21-00196/_pdf

Reference58 articles.

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2. Andersen, M. S., Benoit, D. L., Damsgaard, M., Ramsey, D. K. and Rasmussen, J., Do kinematic models reduce the effects of soft tissue artefacts in skin marker-based motion analysis? An in vivo study of knee kinematics, Journal of Biomechanics, Vol.43, No.2 (2010), pp.268-273.

3. Andriacchi, T. P., Alexander, E. J., Toney, M. K., Dyrby, C. and Sum, J., A point cluster method for in vivo motion analysis: applied to a study of knee kinematics, Journal of Biomechanical Engineering, Vol.120, No.6 (1998), pp.743-749.

4. Andriacchi, T. P., and Dyrby, C. O., Interactions between kinematics and loading during walking for the normal and ACL deficient knee, Journal of Biomechanics, Vol.38, No.2 (2005), pp.293-298.

5. Asano, T., Akagi, M., Tanaka K., Tamura J. and Nakamura T., In vivo three-dimensional knee kinematics using a biplanar image-matching technique. Clinical Orthopaedics and Related Research, Vol.388 (2001), pp.157-166.

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