Hexapod robotic system for indoor neutron and gamma radiation mapping and inspection

2022 25th International Symposium on Design and Diagnostics of Electronic Circuits and Systems (DDECS) Pub Date : 2022-04-06 DOI:10.1109/ddecs54261.2022.9770114

Antonis Banos, Y. Verbelen, S. Kaluvan, C. Hutson, M. R. Tucker, Tom B. Scott

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引用次数: 2

Abstract

The development and demonstration use of a hexapod robotic system for indoor gamma and neutron radiation mapping in confined spaces is presented. The prototype software is ROS-based and uses laser-based 2D SLAM techniques to navigate an unknown environment, while recording continuous measurements of gamma and neutron radiation at a 1Hz sampling rate. Experiments demonstrated that the robot could successfully map controlled environments, producing 2D radiation maps clearly identifying ‘hotspots’ that coincided with the location of radiation sources hidden in the test range. The tests confirmed that the hexapod platform exhibits superior performance regarding contamination pick-up when compared to other motion systems such as tracked rovers, wheeled rovers, etc. This was attributed to its minimal contact surface with the ground, which is considered particularly important in facilities where loose radioactive particulates are present. By using feet caps and a protective suit, the system can be decontaminated and fully recovered for subsequent redeployments.

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用于室内中子和伽马辐射测绘和检测的六足机器人系统

介绍了用于密闭空间室内伽马和中子辐射测绘的六足机器人系统的开发和演示使用。原型软件是基于ros的，使用基于激光的2D SLAM技术来导航未知环境，同时以1Hz的采样率记录伽马和中子辐射的连续测量。实验表明，该机器人可以成功地绘制受控环境的地图，生成2D辐射地图，清楚地识别与隐藏在测试范围内的辐射源位置相吻合的“热点”。测试证实，与其他运动系统(如履带式探测车、轮式探测车等)相比，六足平台在污染拾取方面表现出优越的性能。这是由于它与地面的接触面最小，这在存在松散放射性颗粒的设施中被认为特别重要。通过使用脚帽和防护服，系统可以净化并完全恢复，以便后续重新部署。

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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来源期刊

2022 25th International Symposium on Design and Diagnostics of Electronic Circuits and Systems (DDECS)

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