Ray-Tracing Based Fingerprinting for Indoor Localization

2018 IEEE 19th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) Pub Date : 2018-06-01 DOI:10.1109/SPAWC.2018.8445928

Olivier Renaudin, T. Zemen, Thomas Burgess

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引用次数: 8

Abstract

Empirical fingerprinting is currently one of the most efficient localization methods in indoor environments, due to the now ubiquitous deployment of wireless local area networks. A fingerprint is the pattern of received signal strengths from all the access points visible at a particular position. Reference fingerprints are obtained from extensive measurement campaigns and used during an offline phase to construct suitable radio maps of the environment of interest. However, this approach is very site-specific and the radio maps require therefore to be regularly updated in order to take into account changes in the environment, i.e. a labor-intensive and time-consuming task. Hence, ray-tracing simulations are instead used in this paper to construct these radio maps based on deterministic prediction of the radio wave propagation. To validate this approach, field experiments were conducted in an indoor office environment. The results show (i): the sensitivity of fingerprints to small-scale fading and human shadowing, as well as (ii): good agreement between the measured and ray-tracing simulated fingerprints, especially with strong line-of-sight.

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基于光线追踪的室内指纹定位

由于无线局域网的广泛应用，经验指纹识别是目前室内环境中最有效的定位方法之一。指纹是在特定位置上可见的所有接入点接收到的信号强度的模式。参考指纹从广泛的测量活动中获得，并在离线阶段用于构建感兴趣环境的合适无线电地图。然而，这种方法是非常具体的，因此无线电地图需要定期更新，以便考虑到环境的变化，即一项劳动密集和耗时的任务。因此，本文采用射线追踪模拟来构建基于无线电波传播的确定性预测的无线电波图。为了验证这一方法，在室内办公环境中进行了现场实验。结果表明:(1)指纹对小尺度衰落和人类阴影的敏感性;(2)实测指纹与光线追踪模拟指纹具有较好的一致性，特别是在强视距下。

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

2018 IEEE 19th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC)

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