3D Human Body Measurement by Multiple Range Images

18th International Conference on Pattern Recognition (ICPR'06) Pub Date : 2006-08-20 DOI:10.1109/ICPR.2006.26
K. Yamauchi, Yukio Sato
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引用次数: 12

Abstract

A compact and high-speed 3D human body measurement system is proposed. Whole human body data which we can take from systems that have been developed with a few viewpoints is not successfully acquired due to occlusion. It is proposed a method that can obtain successful data by allocating multiple rangefinders correctly. Four compact rangefinders are installed in a pole. Those four pole units with 16 rangefinders are assigned around a human. Multiple viewpoint range images allow the 3D shape reconstruction for a human body. The measurement time is 2 seconds and the average error is found to be 1.88 mm. In this paper, system configuration, calibration and experimental results are described
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多距离图像的三维人体测量
提出了一种紧凑、高速的三维人体测量系统。由于遮挡,我们可以从具有几个视点的系统中获取整个人体数据。提出了一种通过正确分配多个测距仪来获得成功数据的方法。四个紧凑的测距仪安装在一根杆子上。那四极装置和16个测距仪被分配在一个人周围。多视点范围图像可以实现人体的三维形状重建。测量时间为2秒,平均误差为1.88 mm。本文介绍了系统的组成、标定和实验结果
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18th International Conference on Pattern Recognition (ICPR'06)
18th International Conference on Pattern Recognition (ICPR'06)
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