Simulated environment for wirelessly controlled robots using the natural behavior of radio waves

2014 IEEE International Symposium on Safety, Security, and Rescue Robotics (2014) Pub Date : 2014-10-01 DOI:10.1109/SSRR.2014.7017651

M. Shimizu, Tomoichi Takahashi

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引用次数: 4

Abstract

We propose a method for estimating connectable Wi-Fi areas in order to use response robots in stable disaster areas. Robots were used at the site of the World Trade Center (WTC) disaster, and they are also being used to explore the interior of the Fukushima Daiichi Nuclear Plant (FDNP), which was severely damaged by a tsunami on March 11, 2011. To provide healthy working conditions at the FDNP, Wi-Fi technology is used to control the response robots remotely while the operators remain at a safe location. Robots will continue to be used for several decades at the FDNP as part of the work to decommission the nuclear reactor. Wi-Fi technology is important for the use of robots for a variety of tasks. The next generation of response robots should be designed and evaluated with regard to their Wi-Fi connectivity. Thus, a simulator offers a means of verifying the operation of a response robot when the Wi-Fi connectivity is unstable, which is preferable to performing checks in the field. In this paper, we propose a simple simulation method for checking the Wi-Fi connectivity and creating a map of connectable Wi-Fi areas. We report several measurements of the real Wi-Fi radio-wave power indoors and outdoors to correct our method' s parameters.

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利用无线电波的自然行为模拟无线控制机器人的环境

我们提出了一种估算可连接Wi-Fi区域的方法，以便在稳定的灾区使用响应机器人。机器人被用于世贸中心(WTC)灾难现场，它们也被用于探索福岛第一核电站(FDNP)的内部，该核电站在2011年3月11日的海啸中遭到严重破坏。为了在FDNP提供健康的工作条件，Wi-Fi技术用于远程控制响应机器人，同时操作员保持在安全位置。机器人将在未来几十年继续在FDNP使用，作为核反应堆退役工作的一部分。Wi-Fi技术对于机器人执行各种任务非常重要。下一代响应机器人的设计和评估应该考虑到它们的Wi-Fi连接。因此，模拟器提供了一种在Wi-Fi连接不稳定时验证响应机器人操作的方法，这比在现场执行检查更可取。在本文中，我们提出了一种简单的模拟方法来检查Wi-Fi连接并创建可连接Wi-Fi区域的地图。我们报告了室内和室外实际Wi-Fi无线电波功率的几个测量结果，以纠正我们的方法参数。

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

2014 IEEE International Symposium on Safety, Security, and Rescue Robotics (2014)

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