Effect of body mass index and chair height on the torque developed at the knee joint during back-to-sit and sit-to-stand movements

Jobin Varghese; V.M. Akhil; P.K. Rajendrakumar; K.S. Sivanandan

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Effect of body mass index and chair height on the torque developed at the knee joint during back-to-sit and sit-to-stand movements

机译：在坐垫和坐到的膝关节膝关节扭矩上产生的体重指数和椅子高度的影响

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摘要

Back-to-sit (BTS) and sit-to-stand (STS) are one among many vital functions of knee joint of human body. While designing bipedal robots, the knee joint should have the capacity to replicate the characteristics, such as that of human beings, especially the torque. The effect of weight and length as well as sitting chair height and speed of movement during BTS and STS has to be studied to limit the weight and height of robots or exoskeleton. Here we have used a camera and motion analysis software to acquire the data and studied the effect and interaction of body mass index and chair height on knee torque at various sitting speeds using two-way analysis of variance.

机译：背对位（BTS）和坐足式（STS）是人体膝关节的许多重要功能之一。在设计双模型机器人时，膝关节应具有复制特征的能力，例如人类的特征，尤其是扭矩。重量和长度以及坐垫高度和运动速度的影响必须研究以限制机器人或外骨骼的重量和高度。在这里，我们使用了相机和运动分析软件来获取数据，并使用双向分析方差的双向分析研究了体重指数和椅子高度在膝盖扭矩上的效果和相互作用。

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来源
《International journal of bioinformatics research and applications》 |2018年第2期|共12页
作者
Jobin Varghese; V.M. Akhil; P.K. Rajendrakumar; K.S. Sivanandan;
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作者单位

Department of Mechanical Engineering National Institute of Technology Calicut NIT Campus P.O;

Department of Mechanical Engineering National Institute of Technology Calicut NIT Campus P.O;

Department of Mechanical Engineering National Institute of Technology Calicut NIT Campus P.O;

Department of Electrical Engineering National Institute of Technology Calicut NIT campus P.O;

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正文语种 eng
中图分类生物工程学（生物技术）;
关键词
BMI; BTS; chair height; STS; torque;

机译：BMI;BTS;椅子高;STS;扭矩;

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专利

1. Effect of body mass index and chair height on the torque developed at the knee joint during back-to-sit and sit-to-stand movements [J] . Jobin Varghese, V.M. Akhil, P.K. Rajendrakumar, International journal of bioinformatics research and applications . 2018,第1a2期

机译：在坐垫和坐到的膝关节膝关节扭矩上产生的体重指数和椅子高度的影响
2. Temporal Optimality of a Via-Posture on Trajectory during Sit-to-Stand and Back-to-Sit Movements [J] . Hiroshi R. Yamasaki, Urara Nakamura, Hiroshi Nagasaki Journal of Biomedical Science and Engineering . 2014,第7期

机译：坐姿和坐姿运动中轨迹的通孔姿势的时间最优性
3. Sit-to-stand movement in children with hemiplegic cerebral palsy: Relationship with knee extensor torque and social participation [J] . SantosA.N., Pav?oS.L., SantiagoP.R.P., Research in developmental disabilities . 2013,第6期

机译：偏瘫性脑瘫患儿的站立运动：与膝伸肌扭矩和社会参与的关系
4. Torque required at the knee joint of a robotic assistive device for its thigh to follow the parabolic trajectory generated by its hip joint during sit-to-stand posture [C] . V. M. Akhil, Jobin Varghese, P. K. Rajendrakumar, 2017 International Conference on Innovations in Electrical, Electronics, Instrumentation and Media Technology . 2017

机译：机器人辅助装置的膝盖关节在大腿坐直站立时跟随其髋关节产生的抛物线轨迹所需的扭矩
5. Estimation of muscle torque impulses and ability to predict high-risk knee joint mechanics during landing maneuvers [D] . Sauret, Jerome Jean 2011

机译：着陆演习过程中肌肉扭矩脉冲的估计以及预测高风险膝关节力学的能力
6. Peak hip and knee joint moments during a sit-to-stand movement are invariant to the change of seat height within the range of low to normal seat height [O] . Shinsuke Yoshioka, Akinori Nagano, Dean C Hay, 2010

机译：从坐到站运动期间，髋部和膝盖关节的峰值力矩在低至正常座椅高度范围内不会改变座椅高度
7. Peak hip and knee joint moments during a sit-to-stand movement are invariant to the change of seat height within the range of low to normal seat height [O] . Shinsuke Yoshioka, Akinori Nagano, Dean C Hay, 2014

机译：从坐到站运动期间，髋部和膝盖关节的峰值力矩在低至正常座椅高度范围内不会改变座椅高度

Effect of body mass index and chair height on the torque developed at the knee joint during back-to-sit and sit-to-stand movements

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