Landmine Detection Using A Mobile Robot

2021 IEEE 9th Region 10 Humanitarian Technology Conference (R10-HTC) Pub Date : 2021-09-30 DOI:10.1109/R10-HTC53172.2021.9641540

V. Prakash, Pramod Sreedharan

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引用次数: 1

Abstract

Given the scale and damage to human lives both physical and economic, landmine detection and inspection have been an important domain for human aid response. This process has led to the invention and development of various safe and effective methods for landmine detection, marking, and cleanup. But most often the tools used are expensive, costly to operate, and require skilled technicians. For a very long time, a large part of this process was carried by human personnel. These methods and very conventional and place humans and human life at risk. Operating with such conventional methods requires extensive training and caution. To minimize human interaction modern methods use mobile robots to detects the buried landmines. The mobile robot is equipped with different types of sensors for landmine detection and autonomous navigation. The paper presents the design and implementation of a simulated mobile robot that detects the buried landmines on the battlefield to reduce human intervention. The mobile robot has various sensors for obstacle avoidance and mine detection. The simulation and visualization are carried out in ROS Gazebo and RViz.

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利用移动机器人探测地雷

鉴于地雷的规模和对人的物质和经济生命造成的损害，地雷的探测和视察一直是人类援助反应的一个重要领域。这一过程导致了各种安全有效的地雷探测、标记和清除方法的发明和发展。但大多数使用的工具都很昂贵，操作成本高，需要熟练的技术人员。在很长一段时间里，这一过程的很大一部分是由人力完成的。这些方法非常传统，将人类和人类的生命置于危险之中。使用这种传统方法操作需要大量的训练和谨慎。为了尽量减少人类的互动，现代方法使用移动机器人来探测埋藏的地雷。该移动机器人配备了不同类型的传感器，用于地雷探测和自主导航。本文提出了一种模拟移动机器人的设计与实现，该机器人能够在战场上探测地埋地雷，减少人为干预。移动机器人有各种传感器用于避障和地雷探测。在ROS Gazebo和RViz中进行了仿真和可视化。

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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2021 IEEE 9th Region 10 Humanitarian Technology Conference (R10-HTC)

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