A UWB-based localization system: analysis of the effect of anchor positions and robustness enhancement in indoor environments

L. Ferrigno, G. Miele, F. Milano, Valentina Pingerna, G. Cerro, M. Laracca
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引用次数: 7

Abstract

Localization in indoor environments is a hard task because of several constraints, both in terms of multiple reflections due to wall and people moving around the localization domain. This is especially due to the communication technologies adopted to perform both ranging and positioning. In this paper, a Ultra Wide Band technology is adopted to perform localization in indoor environment, considering a square domain, by means of three fixed anchors and one mobile node. In specific applications, the object to localize is covered by a metallic shield, e.g, robots, and the localization sensor must be embedded inside the object. In this scenario, the paper proposes to solve three issues: assess nominal performance of UWB localization technology, find a way to approach it in harsh conditions, as the one above specified and a further investigation on optimal anchors' positions in the localization domain to verify sensitivity to specific set-up arrangement. First task is accomplished through an extensive measurement campaign without any obstacle; second one is solved by means of a double calibration procedure estimating anchor-to-anchor distance and online correcting the acquired data. A simulated approach that, starting from on-field measurements, verifies the role of different anchors' positions on the positioning error, completes the investigation.
一种基于uwb的定位系统:室内环境下锚点位置和鲁棒性增强的影响分析
室内环境中的定位是一项艰巨的任务,因为有一些限制,包括由于墙壁的多重反射和在定位域周围移动的人。这主要是由于采用了通信技术来执行测距和定位。本文采用超宽带技术,在室内环境下,考虑方形域,采用三个固定锚点和一个移动节点进行定位。在特定应用中,要定位的对象被金属屏蔽覆盖,例如机器人,定位传感器必须嵌入对象内部。在这种情况下,本文提出解决三个问题:评估UWB定位技术的标称性能,找到一种在恶劣条件下接近它的方法,如上文所述,以及进一步研究定位域中的最佳锚点位置以验证对特定设置安排的敏感性。第一项任务是通过广泛的测量活动完成的,没有任何障碍;第二个问题是通过估算锚锚距离和在线校正获取的数据的双重校准程序来解决的。一种模拟方法,从现场测量开始,验证不同锚点位置对定位误差的作用,完成了调查。
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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