中文标题：Quality monitoring of grid-based atmospheric corrections in GNSS PPP-RTK service using leave-one-out cross-validation

英文标题：Quality monitoring of grid-based atmospheric corrections in GNSS PPP-RTK service using leave-one-out cross-validation

来源期刊：SpringerOpen

基金项目：This study is financially supported by the National Natural Science Foundation of China (No. 42425401, 42474023, 42204017), the Hubei Provincial Natural Science Foundation Exploration Program (2024040801020242), the Fundamental Research Funds for the Central Universities (2042024kf0018), and the Major Program of Hubei Province (2023BAA02). The work of Junjie Han is supported by the China Scholarship Council under Grant 202406270020.

作  者：Jiande Huang, Xingxing Li, Xin Li, Junjie Han, Da Liang and Wei Zhang

作者单位：School of Geodesy and Geomatics, Wuhan University, Wuhan, 430079, China(Jiande Huang,Xingxing Li,Xin Li,Da Liang&Wei Zhang)
Research Group of Astronomy and GEomatics, Universitat Politècnica de Catalunya, Barcelona, 08034, Spain(Junjie Han)

摘  要：Atmospheric corrections are essential for Global Navigation Satellite System (GNSS) Precise Point Positioning Real-Time Kinematic (PPP-RTK) service to achieve rapid convergence of precise positioning. Their quality directly influences the accuracy and reliability of positioning results. However, several factors, including satellite elevation angle, differing levels of solar activity across regions, and spatial variation in a station network, can impact the accuracy of atmospheric corrections. Consequently, quality monitoring of atmospheric corrections remains a significant challenge. This paper introduces a quality monitoring method of atmospheric corrections using the leave-one-out cross-validation. In this method, a station is selected sequentially as the validation station to evaluate the atmospheric correction accuracy. The accuracy from each iteration is synthesized to derive the overall quality information of atmospheric corrections, which is then transmitted to the user to enhance positioning reliability and accuracy. The leave-one-out cross-validation method eliminates the need for supplementary monitoring stations and historical data, enabling the generation of atmospheric corrections to possess independent self-monitoring. Additionally, this method inherently adapts to varying grid scales and atmospheric conditions, obviating the need for specific adaptations required by empirical models. The effectiveness of the proposed method is validated through PPP-RTK experiments using GNSS observations in the networks of various scales and atmospheric conditions. The results indicate that the quality information effectively reflects the centimeter-level variations in atmospheric correction accuracy. Furthermore, applying the atmospheric correction quality information in PPP-RTK can improve positioning accuracy by more than 20% when abnormal atmospheric correction occurs.

全文链接： https://satellite-navigation.springeropen.com/articles/10.1186/s43020-025-00178-5