Indoor localization of mobile robots with wireless sensor network based on ultra wideband using experimental measurements of time difference of arrival

Robotics Transforming the Future Pub Date : 2018-09-10 DOI:10.13180/clawar.2018.10-12.09.53

Oa Oumar, T. Sattar, M. Tokhi

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引用次数: 1

Abstract

This paper presents investigations into wireless localization techniques for mobile robots operating in indoor environments. Localization systems can guide robots to perform different tasks such as monitoring children or elderly people, aid mobility of the visually impaired and localize mobile objects or packages in warehouses. They are essential for localization of robots operating in re-mote places that are inaccessible or hazardous to humans. Currently, ultra wide band (UWB) in indoor environments provides an accuracy of 24 mm under line of sight (LOS) or non-line of sight (NLOS) conditions in a working range of 160 m indoors. The work presented in this paper carries out experimental validation of localization algorithms using mobile robots and UWB signals. These are measured in LOS and NLOS environments. The measurements are performed with the UWB radio PulsON 410 (P410) and mobile robots (AmigoBot) with maximum travel-ling speed of 1 m/s and equipped with an on-board computer, sonar, odometer, camera and inertial navigation system. Experimental results obtained for the system show positioning errors of less than 55 mm.

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基于到达时差实验测量的超宽带无线传感器网络移动机器人室内定位

本文研究了室内环境下移动机器人的无线定位技术。定位系统可以引导机器人执行不同的任务，如监控儿童或老人，帮助视障人士移动，定位仓库中的移动物体或包裹。它们对于在人类无法进入或危险的偏远地区操作的机器人的本地化至关重要。目前，室内环境中的超宽带(UWB)在160米的室内工作范围内，在视线(LOS)或非视线(NLOS)条件下提供24毫米的精度。本文提出的工作是利用移动机器人和超宽带信号对定位算法进行实验验证。这些是在LOS和NLOS环境中测量的。测量使用超宽带无线电PulsON 410 (P410)和移动机器人(AmigoBot)进行，最大行驶速度为1米/秒，配备车载计算机，声纳，里程表，相机和惯性导航系统。实验结果表明，该系统的定位误差小于55 mm。

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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Robotics Transforming the Future

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