A Dynamic-Data-Driven Method for Improving the Performance of Receiver Autonomous Integrity Monitoring

Xueen Zheng, Chengdong Xu, Yudong Wang, Haoming Zou, Xijuan Lv, Shuai Zhao, Yansong Shi, Qinghai Shu*

*此作品的通讯作者

科研成果: 期刊稿件文章同行评审

6 引用 (Scopus)

摘要

In this article, the problem of receiver autonomous integrity monitoring (RAIM) is transformed into a modeling problem using dynamic data and an artificial neural network. A new RAIM method based on a probabilistic neural network (P-RAIM) is presented to improve integrity monitoring performance. Compared with existing RAIM methods, P-RAIM has a greater ability to meet the monitoring requirements for localizer performance with vertical guidance down to altitudes of 250 feet (LPV-250) ina single global navigation satellite system. First, by projecting the pseudorange error model from the measurement domain into the positioning domain through multiconvolution, patterns including a satellite fault pattern and a fault-free pattern are obtained based on variance inflation theory. Second, the P-RAIM model is proposed as a modified dynamic-data-driven probabilistic neural network with five layers; moreover, unique methods for training sample collection and integrity support are presented. Then, particle swarm optimization is applied to optimize a fitness function based on thefalse alarm probability and missed detection probability thereby improving the ability of P-RAIM tomeet the LPV-250 requirements, including the false alarm probability, missed detection probability,vertical alarm limit and alarm time. Finally, utilizing real satellite data from a receiver locatedin Beijing to verify the effectiveness and universality of P-RAIM, evaluation experiments show thatboth the false alarm probability and missed detection probability can be effectively reduced to meet the LPV-250 requirements when the positioning bias is no less than 40 m. Compared with least-squares-residuals RAIM, P-RAIM can more easily detect potential faulty satellites in a single constellation.

源语言英语
文章编号9393949
页(从-至)55833-55843
页数11
期刊IEEE Access
9
DOI
出版状态已出版 - 2021

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