用于三维步态分析的光学动作捕捉系统的开发

2011 2nd International Conference on Instrumentation, Communications, Information Technology, and Biomedical Engineering Pub Date : 2011-12-22 DOI:10.1109/ICICI-BME.2011.6108633

S. Mihradi, Ferryanto, T. Dirgantara, A. Mahyuddin

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引用次数: 21

摘要

这项工作提出了一种用于3D步态分析的光学动作捕捉系统的开发。该系统由两个速度为25fps的摄像机、闪光灯、LED标记、两台pc和技术计算软件组成，用于获取人体在行走过程中附着的标记运动。所开发的系统有五个模块来获取标记物的真实坐标，分别是预处理模块、摄像机标定模块、标记物检测与跟踪模块、三维重建模块和后处理模块。在实验中，两台摄像机使用手电筒进行同步。将实验录制的视频提取成帧。将同步帧转换为二值图像，利用最小距离法检测和跟踪标记位置。采用三维直接线性变换方法在实坐标下重建三维标记点位置。实验获得的标记位置数据可用于进一步的人体步态运动学和动力学分析。

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Development of an optical motion-capture system for 3D gait analysis

This work presents the development of an optical motion-capture system for 3D gait analysis. The system consists of two video cameras with speed of 25 fps, flash lighter, LED markers, and two PCs and technical computing software, which are used to acquire marker motion attached to human body during walking. The developed system has five module to obtain real coordinate of markers, i.e. pre-processing, camera calibration, marker detection and tracking, 3D reconstruction, and post-processing module. In the experiment, two camcorders are synchronized using flashlight. The recorded videos from experiment are extracted into frames. The synchronized framesare converted into binary images and marker position can be detected and tracked using least distance method. 3D Direct Linear Transformation method has been used to reconstruct 3D marker position in real coordinate. The marker positions data obtained from experiment could then be used for further kinematics and kinetics analysis of human gait.

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来源期刊

2011 2nd International Conference on Instrumentation, Communications, Information Technology, and Biomedical Engineering

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