Preliminary Localization Results With An RFID Based Indoor Guiding System

2007 IEEE International Symposium on Intelligent Signal Processing Pub Date : 2007-10-01 DOI:10.1109/WISP.2007.4447565

Aikaterini D. Koutsou, Fernando Seco, Antonio R. Jiḿenez, J. Roa, J. Ealo, C. Prieto, Jorge Guevara

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引用次数: 46

Abstract

This paper reports preliminary work with an RFID based local positioning system (LPS) designed for location and guidance of people and autonomous vehicles in indoor environments. The system consists of an RF reader carried by the mobile user, and a number of active RFID tags, disseminated at known positions in the displacement region, which regularly emit RF signals with an identification code. Upon reception of a signal, the range of the user to the corresponding tag is estimated indirectly from the received signal strength (RSSI), using a previously obtained statistical model. A computationally efficient Bayesian localization method (particle filter) is used to process the measurements and produce an estimation of the user's position. The RFID-LPS is tested empirically in a displacement region comprised of three adjacent rooms, with a total area of 250 m2, in which there are placed 21 tags. Our first results show a typical mean positioning error of 3.25 m, which compares favorably with other systems reported in the literature.

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基于RFID室内导航系统的初步定位结果

本文报告了基于RFID的局部定位系统(LPS)的初步工作，该系统设计用于室内环境中人员和自动驾驶车辆的定位和引导。该系统由移动用户携带的射频读取器和若干有源RFID标签组成，这些标签分布在位移区域的已知位置，并定期发射带有识别码的射频信号。在接收到信号后，使用先前获得的统计模型，从接收到的信号强度(RSSI)间接估计用户到相应标签的距离。使用计算效率高的贝叶斯定位方法(粒子滤波)对测量结果进行处理，并对用户的位置进行估计。RFID-LPS在由三个相邻房间组成的位移区域进行了经验测试，总面积为250平方米，其中放置了21个标签。我们的第一个结果显示典型的平均定位误差为3.25 m，与文献中报道的其他系统相比，这是有利的。

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

2007 IEEE International Symposium on Intelligent Signal Processing

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