Research and Achievement of High Precision Single Epoch Baseline Solution Based on Beidou Navigation Satellite System
Abstract In this paper, we study a method of cycle-slip detection and ambiguity resolution for Beidou single epoch dynamic baseline solutions, and compile relevant software. We get the measured data from one middle latitude city and then analyze the inner precision and outer precision of the algorithm, calculating short baseline. Results show that north-south direction accuracy is better than 7 mm, east-west direction accuracy better than 5 mm, elevation direction accuracy better than 15 mm; the outer location precision is better than 5 mm.
Key words :
Beidou navigation satellite system
high precision
single epoch
dynamic positioning
baseline solution
Cite this article:
MA Hailong,XI Ruijie,XIAO Yugang. Research and Achievement of High Precision Single Epoch Baseline Solution Based on Beidou Navigation Satellite System
[J]. jgg, 2017, 37(1): 62-66.
MA Hailong,XI Ruijie,XIAO Yugang. Research and Achievement of High Precision Single Epoch Baseline Solution Based on Beidou Navigation Satellite System
[J]. jgg, 2017, 37(1): 62-66.
URL:
http://www.jgg09.com/EN/ OR http://www.jgg09.com/EN/Y2017/V37/I1/62
[1]
WANG Run, WANG Jingli, Lü Dong. Research on the Elman Neural Network Algorithm to Predict Navigation Satellite Clock Bias [J]. jgg, 2021, 41(3): 285-289.
[2]
TAN Hongbo,SHEN Chongyang,HUANG Haozhe,HAO Hongtao,WEI Jin,YANG Guangliang,WANG Jiapei. Typical Gravity Changes before Strong Earthquakes and Numerical Prediction Test [J]. jgg, 2021, 41(11): 1133-1140.
[3]
. [J]. jgg, 2019, 39(增2): 120-123.
[4]
WEN Yaxin,DAI Wujiao. A Single Epoch Ambiguity Algorithm for Medium and Long Baseline in Deformation Monitoring [J]. jgg, 2019, 39(9): 942-946.
[5]
ZHAO Xingwang,GE Yulong. Accuracy Analysis of Real-Time GPS/Galileo Precise Point Positioning [J]. jgg, 2019, 39(8): 816-820.
[6]
WU Renpan,LIU Wanke,WU Fengbo,LI Jianlong. Analysis of TTFF and Accuracy of BDS Medium-Long Baseline Kinematic Relative Positioning [J]. jgg, 2018, 38(7): 668-672.
[7]
YAN Chao,FANG Xinjian,LIU Yang,XU Wei,DU Wenxuan,WANG Tao,ZHANG Guanghan. Precision Analysis of GPS/BDS Dual-Frequency Single Epoch Short Baseline Solution in Signal Shadowed Regions [J]. jgg, 2018, 38(7): 679-683.
[8]
ZOU Jingui,CHEN Chunying. Embedded Development and Performance Analysis of BDS/GPS Double Difference Solution Library [J]. jgg, 2018, 38(4): 366-369.
[9]
WU Kangliang,LUO Chenxi,YANG Di. The Effect of Stochastic Model on the Accuracy of BDS/GPS Long Baseline Solution [J]. jgg, 2018, 38(4): 386-389.
[10]
WANG Jinxin,HAN Jing,WANG Li,ZHANG Qin,HUANG Guanwen. A BDS Single-Epoch Differential Positioning Algorithm for Short Baselines [J]. jgg, 2018, 38(1): 64-67.
[11]
. [J]. jgg, 2016, 36(增2): 124-.
[12]
DENG Xingsheng,YIN Liangbo,PENG Sichun. Analysis of Periodic Error Characteristics for High-Rate Single-Epoch GPS Solutions [J]. jgg, 2016, 36(7): 570-573.
[13]
WANG Jing,ZHAO Xingwang,LIU Chao,ZHANG Cuiying. Single-Frequency Single-Epoch Ambiguity Resolution for Combined GPS/BDS Based on Regularization [J]. jgg, 2016, 36(12): 1083-1088.
[14]
ZHANG Wei,LIAO Guozhong,ZHANG Qiudong,LI Hua. High Accuracy Algorithm of Calculating Far Zone Ⅱ’s Terrain Correction
Based on Global DEM Data in Spherical Coordinate System [J]. jgg, 2015, 35(4): 632-635.
[15]
TAO Tingye,WANG Zhiping,JIANG Junru. The Method for Determining the Stochastic Model of Single
Epoch Relative Positioning of Combined GPS and BDS [J]. jgg, 2015, 35(4): 649-652.