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Quantifying ionospheric impact on GNSS users and developing ionospheric warning system for middle and high latitude region.

机译：量化电离层对GNSS用户的影响，并开发中高纬度地区的电离层预警系统。

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An approach to quantify ionospheric impact on GNSS users in the high latitude region is developed and proposed in this thesis. The ionosphere shows extreme variability in this region with multiple impacts in terms of large gradients and absolute values of ionospheric delay, e.g. Storm Enhanced Density (SED). In this work positioning errors during such disturbed ionospheric periods are predicted by deriving ionospheric vertical TEC maps (VTEC) using raw observations from ground-based GPS reference stations and estimating the absolute magnitude of ionospheric VTEC and gradients in VTEC. The performance of the prediction system is evaluated through comparisons with truth position estimates for cases of single frequency, DGPS and WAAS users. It is observed that the proposed system better matches the true spatial distribution of positioning errors. As there is no ionospheric prediction service in Canada specific to GNSS users, under rigorous testing this product could be augmented with other prediction indices and broadcast to the existing GNSS users. Timely warnings may be issued for safe operation of various land and marine navigation applications.

机译：本文提出并提出了一种电离层对高纬度地区GNSS用户影响的量化方法。电离层在该区域显示出极大的变化性，在大梯度和电离层延迟的绝对值（例如，风暴增强密度（SED）。在这项工作中，通过使用来自地面GPS参考站的原始观测值并导出电离层垂直TEC图（VTEC）并估算电离层VTEC的绝对大小和VTEC中的梯度，可以预测出在这种电离层周期内的定位误差。通过与单频率，DGPS和WAAS用户情况下的真值位置估计值进行比较，评估了预测系统的性能。可以看出，提出的系统更好地匹配了定位误差的真实空间分布。由于加拿大没有专门针对GNSS用户的电离层预报服务，因此在严格的测试下，该产品可能会增加其他预报指标，并广播给现有GNSS用户。可能会及时发出警告，以确保各种陆地和海上航行应用的安全运行。

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作者
Sadeque, Mohammed Zafer.;
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作者单位

University of Calgary (Canada).;

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授予单位 University of Calgary (Canada).;
学科 Atmospheric Sciences.;Remote Sensing.
学位 M.Sc.
年度 2009
页码 175 p.
总页数 175
原文格式 PDF
正文语种 eng
中图分类遥感技术;
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入库时间 2022-08-17 11:38:30

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1. Wide-area ionospheric delay model for GNSS users in middle- and low-magnetic-latitude regions [J] . Tao An-Lin, Jan Shau-Shiun GPS Solutions . 2016,第1期

机译：中低纬度地区GNSS用户的广域电离层延迟模型
2. Assessment of the Impact of FORMOSAT-7/COSMIC-2 GNSS RO Observations on Midlatitude and Low-Latitude Ionosphere Specification: Observing System Simulation Experiments Using Ensemble Square Root Filter [J] . C. -T. Hsu, T. Matsuo, X. Yue, Journal of Geophysical Research, A. Space Physics: JGR . 2018,第3期

机译：评估Formosat-7 / COSMIC-2 GNSS RO观察对中际和低纬度电离层规格的影响：使用集合方根过滤器观察系统仿真实验
3. Low-latitude GNSS ionospheric scintillation dependence on magnetic field orientation and impacts on positioning [J] . Yang Zhe, Morton Y. T. Jade Journal of Geodesy . 2020,第6期

机译：低纬度GNSS电离层闪烁依赖磁场取向和对定位的影响
4. On the Ionospheric Impact of Recent Storm Events on Satellite-Based Augmentation Systems in Middle and Low-Latitude Sectors [C] . Attila Komjathy, Lawrence Sparks, Anthony J. Mannucci, International Technical Meeting of the Satellite Division of the Institute of Navigation . 2003

机译：关于中低纬度行业卫星增强系统近期风暴事件的电离层影响
5. Spaced-GNSS Receiver Techniques for Ionospheric Irregularity Drift Velocity and Height Estimation Based on High-Latitude GNSS Scintillation [D] . Wang, Jun. 2018

机译：基于高纬度GNSS闪烁的间隔 - GNSS接收器接收器技术，用于基于高纬度GNSS闪烁的电离层不规则漂移速度和高度估计
6. The 6 September 2017 X‐Class Solar Flares and Their Impacts on the Ionosphere GNSS and HF Radio Wave Propagation [O] . Y. Yasyukevich, E. Astafyeva, A. Padokhin, -1

机译：2017年9月6日X级太阳耀斑及其对电离层GNSS和HF无线电波传播的影响
7. Assessment of the Impact of FORMOSAT‐7/COSMIC‐2 GNSS RO Observations on Midlatitude and Low‐Latitude Ionosphere Specification: Observing System Simulation Experiments Using Ensemble Square Root Filter [O] . C.‐T. Hsu, T. Matsuo, X. Yue, 2018

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8. On the ionospheric impact of recent storm events on satellite-based augmentation systems in middle and low-latitude sectors [R] . Komjathy, Attila, Sparks, Lawrence, Mannucci, Anthony J., 2003

机译：关于近期风暴事件对中低纬度地区卫星增强系统的电离层影响

Quantifying ionospheric impact on GNSS users and developing ionospheric warning system for middle and high latitude region.

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