Evaluation of Shadow Range Finder: SRF for planetary surface exploration

2003 IEEE International Conference on Robotics and Automation (Cat. No.03CH37422) Pub Date : 2003-11-10 DOI:10.1109/ROBOT.2003.1241980

Y. Kunii, T. Gotoh

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引用次数: 7

Abstract

To gather a rock, it is necessary how to get information of the surface around a sample. Usually, a surface information is brought by a special sensor such as Laser Range Finder and Stereo Camera. These sensors, however, needs more weight and power consumption and are used for only one function such as the surface measurement. And furthermore, there are some difficulties to use those sensors in some case. In this research, we propose Shadow Range Finder: SRF, which can make good use of a shadow for the measurement of a surface information under the direct sunlight. Shadow is strong for above mentioned problem, and would be recognized in the case of a halation. The measurement by SRF uses a single camera, which should be installed on a manipulator for a sampling, and a link of a manipulator, which produce its shadow. The principle of SRF is same as Laser Range Finder, and a shadow is used for scanning slit instead of a laser. In this paper, experimental results of actual objects is shown, and we discusses about accuracy of measurement data. Finally, we evaluate image thresholding method by the consideration of theoretical value at a circular light source.

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用于行星表面探测的阴影测距仪:SRF评价

为了采集岩石，有必要获取样本周围表面的信息。通常，表面信息是由激光测距仪和立体摄像机等特殊传感器采集的。然而，这些传感器需要更多的重量和功耗，并且仅用于表面测量等一种功能。此外，在某些情况下使用这些传感器还有一些困难。在这项研究中，我们提出了阴影测距仪:SRF，它可以很好地利用阴影来测量阳光直射下的表面信息。对于上述问题，阴影是强烈的，并且在发生光的情况下会被识别出来。SRF测量使用单个摄像机，该摄像机应安装在机械手上进行采样，并安装在机械手的连杆上产生其阴影。SRF的原理与激光测距仪相同，用阴影代替激光扫描狭缝。本文给出了实际物体的实验结果，并对测量数据的准确性进行了讨论。最后，我们通过考虑圆形光源下的理论值来评价图像阈值分割方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2003 IEEE International Conference on Robotics and Automation (Cat. No.03CH37422)

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