Overview of Beidou 3 Precision Single-point Positioning
DOI:
https://doi.org/10.54097/9sj88b32Keywords:
PPP-B2b; BeiDou-3 (BDS-3); Real-time Precision Single-point Positioning (PPP).Abstract
With the increasing maturity of precision point positioning (PPP) technology, PPP-B2b becomes the research focus and hot spot of real time PPP (RT-PPP). This paper firstly introduces the service of PPP with B2b signals, sum-marises the research progress of B2b signals in terms of availability, correction effect and positioning accuracy under different conditions and environments; the influence of choosing different filtering methods on positioning accuracy during the positioning process; and discusses the future development trend and challenges faced by PPP-B2b.
Downloads
References
Nie Z, Yang H, Zhou P, et al. Quality assessment of CNES real-time ionospheric products[J]. GPS Solutions, 2019, 23: 1-15.
Nie Z, Liu F, Gao Y. Real-time precise point positioning with a low-cost dual-frequency GNSS device[J]. GPS Solutions, 2020, 24: 1-11.
Heßelbarth A, Wanninger L. SBAS orbit and satellite clock corrections for precise point positioning[J]. GPS solutions, 2013, 17: 465-473.
Li L, Jia C, Zhao L, et al. Real-time single frequency precise point positioning using SBAS corrections[J]. Sensors, 2016, 16(8): 1261.
Chen J, Wang A, Zhang Y, et al. BDS satellite-based augmentation service correction parameters and performance assessment[J]. Remote Sensing, 2020, 12(5): 766.
Ji S, Sun Z, Weng D, et al. High-precision Ocean navigation with single set of BeiDou short-message device[J]. Journal of Geodesy, 2019, 93: 1589-1602.
Nie Z, Wang B, Wang Z, et al. An offshore real-time precise point positioning technique based on a single set of BeiDou short-message communication devices[J]. Journal of geodesy, 2020, 94: 1-11.
Yang Y, Gao W, Guo S, et al. Introduction to BeiDou-3 navigation satellite system[J]. Navigation, 2019, 66(1): 7-18.
He C, Lu X, Guo J, et al. Initial analysis for characterising and mitigating the pseudorange biases of BeiDou navigation satellite system[J]. Initial analysis for characterising and mitigating the pseudorange biases of BeiDou navigation satellite system[J].
China Satellite Navigation System Administration Office. BeiDou Satellite Navigation System Space Signal Interface Control Document Precision Single Point Positioning Service Signal PPP-B2b (Version 1.0) [DB/OL]. (2020-07) [2023-12-13]. 2020. http://www.beidou. gov.cn/xt/gfxz/ 202008/ P020200803362062482940.pdf.
Liu C, Gao W, Liu T, et al. Design and implementation of a BDS precise point positioning service[J]. Design and implementation of a BDS precise point positioning service[J].
Lu X, Chen L, Shen N, et al. Decoding PPP corrections from BDS B2b signals using a software-defined receiver: an initial performance evaluation[J]. IEEE sensors journal, 2020, 21(6): 7871-7883.
Ren Z, Gong H, Peng J, et al. Performance assessment of real-time precise point positioning using BDS PPP-B2b service signal [J]. Advances in Space Research, 2021, 68(8): 3242-3254.
SONG Weiwei, ZHAO Xinke, LOU Yidong,et al. Performance evaluation of BeiDou-3 PPP-B2b service[J]. Journal of Wuhan University (Information Science Edition),2023,48(03):408-415.
Cai Zirui, Fang Rongxin, Hu Bingyan et al. Evaluation of broadcast ephemeris accuracy for BeiDou-3 B2b signal correction and PPP application[J]. Global Positioning System, 2023, 48(01):64-70.
JIANG Wei, CHEN Xiangdong, XING Yunjian,et al. Satellite Orbiting Accuracy Assessment for BeiDou-3 PPP-B2b Service [J]. Global Positioning System,2023,48(01):32-36.
Nie Z, Xu X, Wang Z, et al. Initial assessment of BDS PPP-B2b service: precision of orbit and clock corrections, and PPP performance[J]. Remote Sensing, 2021, 13(11): 2050.
Jiao Dancheng. Research on real-time precision single-point positioning based on BeiDou-3 PPP-B2b[D]. University of Chinese Academy of Sciences (National Timing Centre of Chinese Academy of Sciences), 2023.
XU Yangyin, REN Xia, MING Feng. Availability analysis of precision single-point positioning service for BeiDou-3 PPP-B2b signal[J/OL]. Global Positioning System,1-10[2024-05-31].
Xu Y, Yang Y, Li J. Performance evaluation of BDS-3 PPP-B2b precise point positioning service[J]. GPS Solutions, 2021, 25(4): 142.
TANG Shoupu, WU Wentan, XIA Zhenying et al. Analysis and application of BeiDou-3 PPP-B2b independent positioning [J]. Journal of Hebei Academy of Sciences,2023, 40 (03):61-69.
WANG Xiang, NIE Zhixi, WANG Zhenjie et al. Performance evaluation of marine real-time precision single-point positioning for BeiDou-3 PPP-B2b service[J]. Journal of Navigation and Positioning,2023,11(04):18-23.
ZHAO Qile, TAO Jun,GUO Jing et al. Wide-area instantaneous centimetre-scale precision single-point positioning and service system[J]. Journal of Wuhan University (Information Science Edition),2023,48(07):1058-1069.
TIAN Xiangyu, CHAI Hongzhou, ZHANG Qiankun et al. Research on PPP-AR precision positioning technology for GNSS ocean buoys[C]// Academic Exchange Centre of China Satellite Navigation System Administration Office. Proceedings of the 14th Annual China Satellite Navigation Conference - S01 Satellite Navigation Applications.2024:98-104.
Cha Jiu Ping, Zhang Baocheng, Liu Teng et al.BDS-3 PPP-B2b precision track-assisted non-differential non-combined PPP-RTK [J]. Journal of Surveying and Mapping, 2023, 52 (09): 1449-1459.
SHI Junbo, DONG Xinying,OUYANG Chenhao et al. Analysis of fast static and low dynamic positioning performance based on BeiDou-3 PPP service[J]. Geodesy and Geodynamics, 2023,43(10):997-1002.
Zhao Q, Pan S, Gao C, et al. BDS/GPS/LEO triple-frequency uncombined precise point positioning and its performance in harsh environments[J]. Measurement, 2020, 151: 107216.
Downloads
Published
Issue
Section
License
Copyright (c) 2024 Academic Journal of Science and Technology
This work is licensed under a Creative Commons Attribution 4.0 International License.
