摘要
在城市复杂环境中,全球导航卫星系统(GNSS)由于高楼等障碍物的遮挡和反射,易产生非视距接收(NLOS)与多径干扰(MI),定位精度和可靠性严重下降,无法满足用户高精度和高可靠性的定位、导航和授时(PNT)服务需求。基于GNSS原始观测量的信号分类和多径建模方法对于缓解城市环境中GNSS多径效应,提高定位精度有重要意义,但这类模型的精度、效率和检验方法往往存在欠缺。提出了一种格网误差建模辅助的GNSS/IMU组合导航综合质量控制算法,通过对城市区域进行格网伪距误差建模,并且实现基于格网拟合精度和卫星故障检验构建精细化的综合质量控制,有效地优化了城市复杂环境下的GNSS/IMU组合导航定位性能。城市环境车载实验表明,所提算法相较传统GNSS/IMU组合导航算法在水平和3D方向上分别提升了50.23%和66.77%,相较基于格网建模算法提升了11.56%和40.53%。
In the complex urban environment,Global navigation satellite system(GNSS)signals are prone to non-line-of-sight reception(NLOS)and multipath interference(MI)due to the occlusion and reflection of obstacles such as tall buildings.The positioning accuracy and reliability are seriously reduced,which cannot meet the user’s high precision and reliability positioning,navigation and timing(PNT)service requirements.Signal classification and multipath modeling methods based on machine learning and data-driven are of great significance for alleviating GNSS multipath effect and improving positioning accuracy in urban areas.But the accuracy,efficiency and adaptivity of such models still need to be improved.In this paper,a grid error modeling aided GNSS/Inertial measurement unit(IMU)integrated navigation comprehensive quality control algorithm is proposed.Besides the grid pseudorange error modeling,it proposes a refined comprehensive quality control strategy based on grid fitting accuracy and satellite fault detection,thus optimizes the performance of GNSS/IMU integrated navigation in complex urban environments.The field test in urban environment shows that compared with the traditional GNSS/IMU integrated navigation algorithm,the horizontal and 3D positioning accuracy of the proposed algorithm are improved by 50.23%and 66.77%,respectively,and compared with the grid pseudorange error modeling algorithm,they are improved by 11.56%and 40.53%,respectively.
作者
戴晔莹
孙蕊
邓思瑜
吉莉
王媛媛
黄薛东
DAI Yeying;SUN Rui;DENG Siyu;JI Li;WANG Yuanyuan;HUANG Xuedong(College of Civil Aviation,Nanjing University of Aeronautics and Astronautics,Nanjing 211106,China)
出处
《北京航空航天大学学报》
北大核心
2025年第9期3174-3182,共9页
Journal of Beijing University of Aeronautics and Astronautics
基金
国家自然科学基金(42222401,42174025,41974033)
工信部专项科研项目(TC220A04A-79)
江苏省“六大人才高峰”项目(KTHY-014)
江苏省自然科学基金(BK20211569)
中央高校基本科研业务费专项资金(xcxjh20220722)。
