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质心和压力中心的运动学可预测行走时鞋-地界面的摩擦力需求。

Kinematics of center of mass and center of pressure predict friction requirement at shoe-floor interface during walking.

机构信息

Graduate School of Engineering, Tohoku University, 6-6-01 Aramaki-Aza-Aoba, Aoba-ku, Sendai, Miyagi 980-8579, Japan.

出版信息

Gait Posture. 2013 Jun;38(2):209-14. doi: 10.1016/j.gaitpost.2012.11.007. Epub 2012 Dec 5.

DOI:10.1016/j.gaitpost.2012.11.007
PMID:23218767
Abstract

We aimed to determine whether inclination angles of the line connecting the whole body center of mass (COM) to the center of pressure (COP) (COM-COP angle) help predict the required coefficient of friction (RCOF) in young adult males during the weight acceptance and push-off phases in transient movements such as turning, gait termination and initiation, and steady-state movements such as straight walking. Seventeen healthy young adult males were asked to (1) walk in a straight line, (2) turn 60° with either foot (step and spin turns), and (3) initiate and terminate walking on a dry level floor. Peak absolute values of the ratio between resultant horizontal and vertical ground reaction forces during the weight acceptance and push-off phases (RCOFh and RCOFt, respectively) were calculated. COM-COP angles θh and θt at the instant of RCOFh and RCOFt, respectively, were also calculated. Bivariate regression analysis demonstrated that the |θh| and |θt| tangents were significant predictors of RCOFh (R = 0.878; R(2) = 0.770; p<0.001) and RCOFt (R = 0.918; R(2) = 0.843; p<0.001), respectively. The results suggest that COM and COP kinematics (i.e., the COM-COP angle) serve as a predictor of friction requirement during the weight acceptance and push-off phases in steady-state movements such as straight walking and transient movements such as turning as well as gait termination and initiation.

摘要

我们旨在确定连接整个身体质心(COM)和压力中心(COP)的线的倾斜角度(COM-COP 角度)是否有助于预测年轻成年男性在转弯、步态终止和开始以及稳态运动(如直线行走)等瞬态运动中接受体重和推离阶段所需的摩擦系数(RCOF)。要求 17 名健康的年轻成年男性(1)直线行走,(2)用任意一只脚(迈步和旋转转弯)转 60°,(3)在干燥平整的地板上开始和终止行走。在体重接受和推离阶段(分别为 RCOFh 和 RCOFt)期间,计算水平和垂直地面反作用力总和的峰值绝对值之间的比值。还计算了 RCOFh 和 RCOFt 瞬间的 COM-COP 角度θh 和θt。双变量回归分析表明,|θh|和|θt|切线是 RCOFh(R = 0.878;R²= 0.770;p<0.001)和 RCOFt(R = 0.918;R²= 0.843;p<0.001)的重要预测因子。结果表明,COM 和 COP 运动学(即 COM-COP 角度)可作为稳态运动(如直线行走)和瞬态运动(如转弯、步态终止和开始)中体重接受和推离阶段摩擦需求的预测因子。

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