Tarantula bot: Rescue assist tele robot

2012 Fourth International Conference on Advanced Computing (ICoAC) Pub Date : 2012-12-01 DOI:10.1109/ICOAC.2012.6416851

R. Sreerag, B. Sriram, S. John, B. Thenkalvi

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引用次数: 1

Abstract

This paper shows the modularity of self reconfigurable spider robots with a great versatility. These robots (Tarantula bots) are mainly used for a successful urban search and rescue system. Self reconfigurable system is used to explore the hardware reality of a robot along with its applications. Locomotion and visualizations in large terrain and earthquakes by rescue team is more complex in nature. This paper provides a solution for the rescue team to protect the injured humans in a disaster area. Tarantula bot locomote and capture videos in a disaster area and sends appropriate videos (feedback data) to the rescue team. Using pyro and ultrasonic sensors we can detect the human presence in a terrain area. Both remote and automatic access is the major advantage of tarantula bot. After outlining the advantages of this robot concept, a robot body shape change theory was proposed and theoretical simulations were used to verify the practicality of the Robot shape change theory. The thesis also illustrates the design of the working Principle and design of a robot sensor, which was subsequently used in the robot Shape change experiments.

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狼蛛机器人:救援协助远程机器人

本文展示了自重构蜘蛛机器人的模块化，具有很强的通用性。这些机器人(狼蛛机器人)主要用于成功的城市搜索和救援系统。利用自重构系统来探索机器人的硬件现实及其应用。救援队伍在大地形和地震中的运动和可视化在本质上更为复杂。本文为救援队伍在灾区保护受伤人员提供了一种解决方案。狼蛛机器人在灾区移动和拍摄视频，并将适当的视频(反馈数据)发送给救援队。使用热传感器和超声波传感器，我们可以在地形区域探测到人类的存在。远程和自动访问是狼蛛机器人的主要优势。在概述了该机器人概念的优点后，提出了机器人体型变化理论，并通过理论仿真验证了机器人体型变化理论的实用性。本文还阐述了机器人传感器的工作原理和设计，并将其应用于机器人变形实验。

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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2012 Fourth International Conference on Advanced Computing (ICoAC)

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