Deep fusion of vector tracking GNSS receivers and a 3D city model for robust positioning in urban canyons with NLOS signals

2014 7th ESA Workshop on Satellite Navigation Technologies and European Workshop on GNSS Signals and Signal Processing (NAVITEC) Pub Date : 2014-12-03 DOI:10.1109/NAVITEC.2014.7045155

M. Sahmoudi, Aude Bourdeau, J. Tourneret

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引用次数: 7

Abstract

In urban canyons, the GNSS satellite signals may travel an additional distance due to reflection and diffraction before reaching the receiver antenna. Where no direct path is available, this is called a non-line of- sight (NLOS) propagation and adds a positive bias to the geometric measured pseudorange. In this paper, we address the issue of GNSS positioning in harsh environments using constructively the NLOS signals. To exploit these biased signals, we compensate for the NLOS bias using a 3D GNSS simulation model of the environment. We use the 3D model as a priori information to characterize the additional NLOS bias. In this work, we propose a deep integration of the 3D model-based signal characterization into an advanced GNSS receiver architecture called vector tracking loops. The proposed architecture is a combination of a vector tracking receiver and a co-processor of external local information to correct the GNSS measurements. Obtained results with real GPS signals illustrates the effectiveness of this approach to improve the accuracy and reliability of the navigation solution in urban canyons.

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基于NLOS信号的城市峡谷中矢量跟踪GNSS接收机与三维城市模型的深度融合

在城市峡谷中，由于反射和衍射，GNSS卫星信号在到达接收天线之前可能会传播额外的距离。在没有直接路径可用的情况下，这被称为非瞄准线(NLOS)传播，并在几何测量伪距上增加正偏置。在本文中，我们利用建设性的NLOS信号解决了GNSS在恶劣环境下的定位问题。为了利用这些偏置信号，我们使用三维GNSS环境模拟模型来补偿NLOS偏置。我们使用3D模型作为先验信息来表征额外的NLOS偏差。在这项工作中，我们提出将基于3D模型的信号表征深度集成到称为矢量跟踪环路的先进GNSS接收器架构中。提出的体系结构是矢量跟踪接收器和外部本地信息协处理器的组合，用于校正GNSS测量。实测结果表明，该方法能够有效提高城市峡谷地区导航方案的精度和可靠性。

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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2014 7th ESA Workshop on Satellite Navigation Technologies and European Workshop on GNSS Signals and Signal Processing (NAVITEC)

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