Spatial synchronization of an insole pressure distribution system with a 3D motion analysis system for center of pressure measurements.

Fradet L; Siegel J; Dahl M; Alimusaj M; Wolf SI

首页> 外文期刊>Medical and Biological Engineering and Computing: Journal of the International Federation for Medical and Biological Engineering >Spatial synchronization of an insole pressure distribution system with a 3D motion analysis system for center of pressure measurements.

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Spatial synchronization of an insole pressure distribution system with a 3D motion analysis system for center of pressure measurements.

机译：鞋垫压力分配系统与3D运动分析系统的空间同步，用于压力中心的测量。

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Insole pressure systems are often more appropriate than force platforms for analysing center of pressure (CoP) as they are more flexible in use and indicate the position of the CoP that characterizes the contact foot/shoe during gait with shoes. However, these systems are typically not synchronized with 3D motion analysis systems. The present paper proposes a direct method that does not require a force platform for synchronizing an insole pressure system with a 3D motion analysis system. The distance separating 24 different CoPs measured optically and their equivalents measured by the insoles and transformed in the global coordinate system did not exceed 2 mm, confirming the suitability of the method proposed. Additionally, during static single limb stance, distances smaller than 7 mm and correlations higher than 0.94 were found between CoP trajectories measured with insoles and force platforms. Similar measurements were performed during gait to illustrate the characteristics of the CoP measured with each system. The distance separating the two CoPs was below 19 mm and the coefficient of correlation above 0.86. The proposed method offers the possibility to conduct new experiments, such as the investigation of proprioception in climbing stairs or in the presence of obstacles.

机译：鞋垫压力系统通常比用力平台更适合分析压力中心（CoP），因为它们在使用中更加灵活，并指示CoP的位置，该位置表征了鞋子步态时脚与鞋的接触。但是，这些系统通常不与3D运动分析系统同步。本文提出了一种直接方法，该方法不需要用于将鞋垫压力系统与3D运动分析系统同步的力平台。光学测量的24种不同CoP的间隔以及通过鞋垫测量并在全局坐标系中转换的等效项之间的距离不超过2 mm，证实了所提出方法的适用性。此外，在单脚静态站立期间，在鞋垫和受力平台上测得的CoP轨迹之间的距离小于7 mm，且相关性高于0.94。在步态过程中进行了类似的测量，以说明每个系统测量的CoP的特征。分离两个CoP的距离小于19 mm，相关系数大于0.86。所提出的方法提供了进行新实验的可能性，例如研究爬楼梯或存在障碍物时的本体感受。

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《Medical and Biological Engineering and Computing: Journal of the International Federation for Medical and Biological Engineering》 |2009年第1期|共8页
作者
Fradet L; Siegel J; Dahl M; Alimusaj M; Wolf SI;
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正文语种 eng
中图分类医用一般科学;
关键词
Motion; Analysis of substances; distribution system; Gait; 运动(Motion); 步态;

机译：Motion;Analysis of substances;distribution system;Gait;运动(Motion);步态;

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1. Spatial synchronization of an insole pressure distribution system with a 3D motion analysis system for center of pressure measurements. [J] . Fradet L, Siegel J, Dahl M, Medical and Biological Engineering and Computing: Journal of the International Federation for Medical and Biological Engineering . 2009,第1期

机译：鞋垫压力分配系统与3D运动分析系统的空间同步，用于压力中心的测量。
2. Anterior-posterior displacement of center of pressure measured by insole foot pressure measurement system in subacute recovery stage of post-stroke hemiplegia [J] . Choi Hanboram, Kim Woo-Sub Technology and health care: official journal of the European Society for Engineering and Medicine . 2018,第4期

机译：沿卒中后偏瘫越脚压测量系统测量的压力中心的前后移位
3. Central venous pulse pressure analysis using an R-synchronized pressure measurement system. [J] . Fujita Y, Hayashi D, Wada S, Journal of clinical monitoring and computing . 2006,第6期

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4. Customized Foot Pressure Redistribution Insole Design using Image-based Rapid Pressure Measuring System [C] . C. C. Chang, M. Y. Lee, S. H. Wang IEEE International Conference on Systems, Man and Cybernetics . 2007

机译：使用基于图像的快速压力测量系统定制脚压再分配鞋垫设计
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Spatial synchronization of an insole pressure distribution system with a 3D motion analysis system for center of pressure measurements.

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