Nequick2 Model Behaviour for Global Ionospheric Delay Mitigation During Solar Cycle-24

IF 0.7 Q4 ASTRONOMY & ASTROPHYSICS Artificial Satellites-Journal of Planetary Geodesy Pub Date : 2018-12-01 DOI:10.2478/arsa-2018-0010
A. Farah
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Abstract

Abstract The ionospheric delay is the major current source of potential range delay for single-frequency GNSS users. Different ionospheric delay mitigation methods have been developed to mitigate the ionospheric delay effects for single-frequency users. The NeQuick is a quick-run ionospheric electron density model particularly designed for trans-ionospheric propagation applications developed at the Aeronomy and Radio propagation Laboratory of the Abdus Salam International Centre for Theoretical Physics (ICTP), Italy. NeQuick2 is the latest version of the NeQuick ionosphere electron density model. NeQuick model been used by the European Space Agency (ESA) European Geostationary Navigation Overlay Service (EGNOS) project for assessment analysis and has been adopted for single-frequency positioning applications in the frame work of the European satellite navigation system (Galileo). NeQuick2 model adopted modifications related to the modeling of the F1 layer peak electron density, height and thickness parameter. Also, a new formulation of the shape parameter k has been adopted. This paper presents a global study for the behavior of the modified NeQuick2 model. The zenith ionospheric range delay correction by the model has been assessed using the highly accurate IGS-Global Ionospheric Maps (IGS-GIMs) for two different-latitude stations (Aswan, Egypt) (low-latitude) (24.1o N) and (Helsinki, Finland) (high-latitude) (60.2o N). The study was carried out during current solar cycle-24 over three different months that each of them reflects a different state of solar activity. It can be concluded that NeQuick2 model globally presents overestimation for ionospheric delay for quiet and medium ionospheric activity states respectively, while the model presents underestimation for high activity state of the ionosphere layer.
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太阳周期-24期间全球电离层延迟减缓的Nequick2模式行为
电离层延迟是单频GNSS用户潜在距离延迟的主要电流来源。为了减轻对单频用户的电离层延迟影响,已经开发了不同的电离层延迟缓解方法。NeQuick是由意大利Abdus Salam国际理论物理中心(ICTP)的航空和无线电传播实验室开发的一种快速运行的电离层电子密度模型,专门为跨电离层传播应用而设计。NeQuick2是NeQuick电离层电子密度模型的最新版本。NeQuick模型已被欧洲空间局(ESA)欧洲地球静止导航覆盖服务(EGNOS)项目用于评估分析,并已被用于欧洲卫星导航系统(伽利略)框架中的单频定位应用。NeQuick2模型对F1层峰值电子密度、高度和厚度参数的建模进行了相关修改。同时,采用了一种新的形状参数k的表达式。本文对改进后的NeQuick2模型的行为进行了全局研究。利用高精度的igs -全球电离层地图(IGS-GIMs)对两个不同纬度的观测站(埃及阿斯旺)(低纬度)(24.10 N)和(芬兰赫尔辛基)(高纬度)(60.2 N)进行了模型的天顶电离层距离延迟校正。该研究是在当前太阳周期24中进行的,每个月都反映了不同的太阳活动状态。结果表明,NeQuick2模型对电离层静止和中等活动状态的电离层延迟分别存在高估,而对电离层高活动状态的电离层延迟存在低估。
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