在智能移动设备上实施 GAGAN 增强技术并开发合作定位架构

IF 1.2 Q4 REMOTE SENSING Journal of Applied Geodesy Pub Date : 2024-02-16 DOI:10.1515/jag-2023-0056
J. Rajavarathan, Guenther Retscher, Gajanan Karunanithy
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引用次数: 0

摘要

本研究提出了一种基于安卓系统的协同定位(CP)架构,以提高移动设备的全球导航卫星系统定位性能。SBAS(基于卫星的增强系统)增强通过无线连接或使用中央服务器在支持 SBAS 的设备和不支持 SBAS 的设备之间共享校正,从而显著提高定位精度。实验中采用并评估了印度的 GAGAN(GPS 辅助地球同步轨道增强导航)。如果应用 GAGAN 修正,所有三个选定的移动设备的定位精度都提高了约 95%。单频 GNSS 智能手机小米红米 Note 8 的平均二维 RSME 从 75.23 米降低到 1.35 米,双频 Google Pixel 4 的平均二维 RSME 从 33.25 米降低到 1.62 米。不出所料,第三台 GIS 制图设备 Stonex S70 平板电脑的性能最高,定位精度达到亚米级。因此,该实验证明了 GAGAN 增强技术适用于移动设备,为进一步开发 CP 架构提供了积极的启示。
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Implementation of GAGAN augmentation on smart mobile devices and development of a cooperative positioning architecture
This study presents an Android-based cooperative positioning (CP) architecture to improve the GNSS positioning performance on mobile devices. SBAS (Satellite Based Augmentation System) augmentation increases positioning accuracies significantly by sharing corrections between SBAS-enabled and non-capable devices via wireless connection or using a central server. The Indian GAGAN (GPS Aided GEO Augmented Navigation) is employed and assessed in the experiments. If GAGAN corrections are applied, all three chosen mobile devices showed a positioning accuracy improvement of around 95 %. The average 2D RSME was reduced from 75.23 to 1.35 m for the single-frequency GNSS smartphone Xiaomi Redmi Note 8 and from 33.25 to 1.62 m for the dual-frequency Google Pixel 4. As expected, the third GIS mapping device, Stonex S70 tablet, showed the highest performance, achieving sub-meter positioning accuracies. Thus, the experiment has proven the suitability of GAGAN augmentation for mobile devices, providing positive insight for further development of the CP architecture.
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来源期刊
Journal of Applied Geodesy
Journal of Applied Geodesy REMOTE SENSING-
CiteScore
2.30
自引率
7.10%
发文量
30
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