Fuzzy logic approach for GNSS signal classification using RHCP and LHCP antennas

Bassma Guermah, T. Sadiki, Hassan El Ghazi
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引用次数: 7

Abstract

Today, the problem of global navigation satellite system (GNSS) positioning in urban canyons has received considerable attention in several field, such as transport and emergency systems. However, the performances of GNSS-based systems can be degraded in urban areas due to non-line-of-sight (NLOS), Multipath and masking effects. In this paper, we aim to explore the potential of RHCP, LHCP antennas technology and the fuzzy logic method for identifying GNSS signal reception state. The fuzzy system developed has based on the satellite elevation and the C/N0-R-L, which is the difference between the left-hand circular polarized (LHCP) C/N0 (carrier-to-noise ratio) and the right-hand circular polarized (RHCP) C/N0. A signal reception state classification by applying the proposed system is demonstrated on a real global positioning system (GPS) signal, and the efficiency of the classifier is shown.
基于RHCP和LHCP天线的GNSS信号分类模糊逻辑方法
目前,全球卫星导航系统(GNSS)在城市峡谷中的定位问题在交通运输和应急系统等多个领域受到了相当大的关注。然而,由于非视距(NLOS)、多径和掩蔽效应,基于gnss的系统在城市地区的性能可能会下降。本文旨在探讨RHCP、LHCP天线技术和模糊逻辑方法在识别GNSS信号接收状态方面的潜力。该模糊系统基于卫星高度和C/N0- r- l,即左圆极化(LHCP) C/N0(载波噪声比)与右圆极化(RHCP) C/N0的差值。应用该方法对实际GPS信号进行了接收状态分类,验证了分类器的有效性。
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