电离层闪烁对GPS增强系统服务有效性影响的多层建模与仿真

R. Malla, R. Fries
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引用次数: 1

摘要

本文介绍了一种利用建模和仿真的多层技术来评估电离层闪烁对卫星导航系统的影响。众所周知,低纬度和高纬度地区的GPS接收机可能由于闪烁而遭受幅度和相位的快速波动和信号散射,从而导致双频和单频用户失去锁定和周期跳。闪烁对包括天基增强系统(SBAS)和地基增强系统(GBAS)在内的GPS增强服务提供商在受影响区域提供高概率的导航服务提出了挑战。近几十年来,人们进行了许多研究和数据分析,以了解闪烁对卫星导航系统用户的影响。一些重要的数据已经转化为建模和模拟工具,以帮助描述闪烁效应和世界范围的闪烁环境。
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Multi-layer modeling and simulation of the effects of ionospheric scintillation on service availability of the GPS augmentation systems
This paper describes a multi-layer technique using modeling and simulation to assess the impact of ionospheric scintillation on satellite navigation systems. It is well known that GPS receivers in low- and high-latitude regions may suffer from rapid amplitude and phase fluctuations and signal scatter due to scintillation, causing loss of lock and cycle slips to dual as well as single frequency users. Scintillation poses a challenge to the GPS augmentation service providers including Space Based Augmentation Systems (SBAS) and Ground Based Augmentation Systems (GBAS) to provide a high probability of navigational service availability in affected regions. Over the recent decades, many studies and data analyses have been conducted to understand effect of scintillation which affects users of satellite based navigation systems. Some significant data has been translated into modeling and simulation tools to help characterize scintillation effects and the world-wide scintillation environment.
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