Force Adaptation in Human Walking With Symmetrically Applied Downward Forces on the Pelvis

Vashista V.; Agrawal N.; Shaharudin S.; Reisman D.S.

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Force Adaptation in Human Walking With Symmetrically Applied Downward Forces on the Pelvis

机译：人体行走中的力适应，在骨盆上施加对称的向下力

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The application of external constraints and/or applied forces during movement can lead to reactive as well as adaptive changes in human motion. Previous research has shown adaptation in walking kinematics when external forces were applied to a leg. This work aims to study adaptation in human walking when externally applied forces were present on the pelvis during the swing and stance phases of both legs. A novel tethered pelvic assist device (TPAD) was used to passively apply symmetric downward forces on the human pelvis while walking. During the experiment, eight healthy subjects walked on a treadmill at a constant speed while their kinematics and foot pressure data were recorded.

机译：在运动过程中施加外部约束和/或施加的力会导致人体运动的反作用以及自适应变化。先前的研究表明，当外力施加到腿上时，在步行运动学中具有适应性。这项工作旨在研究在双腿的摆动和站立阶段，骨盆上施加外力时人体行走的适应性。一种新颖的拴系骨盆辅助装置（TPAD）用于在行走时被动地向人骨盆施加对称的向下作用力。在实验过程中，八名健康受试者以恒定的速度行走在跑步机上，同时记录了他们的运动学和足底压力数据。

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《IEEE transactions on neural systems and rehabilitation engineering》 |2013年第6期|969-978|共10页
作者
Vashista V.; Agrawal N.; Shaharudin S.; Reisman D.S.;
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作者单位

Rehabilitation Robotics Laboratory, Department of Mechanical Engineering, University of Delaware, Newark,|c|;

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原文格式 PDF
正文语种 eng
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关键词
Downward forces on pelvis; gait kinetics; passive pelvic device; walking adaptation;

机译：骨盆上的向下力;步态动力学;骨盆被动装置;行走适应;

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1. Application of a Novel Force-Field to Manipulate the Relationship Between Pelvis Motion and Step Width in Human Walking [J] . Heitkamp Lauren N., Stimpson Katy H., Dean Jesse C. IEEE transactions on neural systems and rehabilitation engineering . 2019,第10期

机译：新型力场在人体行走中操纵骨盆运动与步幅之间关系的应用
2. Trunk-pelvis motion, joint loads, and muscle forces during walking with a transtibial amputation [J] . Yoder Adam J., Petrella Anthony J., Silverman Anne K. Gait & posture . 2015,第3期

机译：经胫骨截肢行走时的躯干-骨盆运动，关节负荷和肌肉力量
3. Locomotor Adaptation to an Asymmetric Force on the Human Pelvis Directed Along the Right Leg [J] . Vineet Vashista, Dario Martelli, Sunil K. Agrawal IEEE transactions on neural systems and rehabilitation engineering . 2016,第8期

机译：运动适应右腿骨盆上的不对称力
4. Force Adaptation in Human Walking with Symmetrically Applied Downward Forces on the Pelvis [C] . Vineet Vashista, Neelima Agrawal, Shazlin Shaharudin, Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2012

机译：在骨盆上使用对称施加的向下力量的人类行走
5. Limits of Human Balance to Impact Forces Applied to the Waist [D] . Cooke, Gordon C., III. 2017

机译：人类平衡对施加到腰部的冲击力的限制
6. Motor adaptation to lateral pelvis assistance force during treadmill walking in individuals post-stroke [O] . Ming Wu, Chao-Jung Hsu, Janis Kim -1

机译：卒中后个人在跑步机上行走时对侧骨盆辅助力的运动适应
7. Motor adaptation to lateral pelvis assistance force during treadmill walking in individuals post-stroke [O] . Ming Wu, Chao-Jung Hsu, Janis Kim 2017

机译：在跑步机上行程的跑步机期间，电动机适应横向骨盆援助力
8. Testing of Slipperiness: Forces Applied to the Floor and Movements of the Foot in Walking and in Slipping on the Heel [R] . Bring, C. 1981

机译：滑动性的测试：在地板上行走的力和行走时脚的运动以及在脚跟上滑动

Force Adaptation in Human Walking With Symmetrically Applied Downward Forces on the Pelvis

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