RESEARCH ON APPLICATION OF PANDA SOFTWARE TO HIGHFREQUENCY KINEMATIC PRECISE POINT POSITIONING
Chen Kejie; Fang Rongxin;Li Min; and Zhu Huizhong
GNSS Research Center of Wuhan University,Wuhan 430079
Abstract The precision of orbit determination and clock error computation of PANDA(Position And Navigation Data Analysis) is verified through experiments. The high frequency GPS observation data during Wenchuan earthquake is processed by kinematic precise point positioning with the PANDA products of orbit and clock error. The results indicate that the advantages of using PANDA for high frequency kinematic precise point positioning are good in real time and of high accuracy.
Key words :
PANDA software
high rate GPS
kinematic precise point positioning
clock error
real time
Received: 01 January 1900
Corresponding Authors:
Chen Kejie
Cite this article:
Chen Kejie,Fang Rongxin,Li Min et al. RESEARCH ON APPLICATION OF PANDA SOFTWARE TO HIGHFREQUENCY KINEMATIC PRECISE POINT POSITIONING[J]. , 2011, 31(4): 132-134.
Chen Kejie,Fang Rongxin,Li Min et al. RESEARCH ON APPLICATION OF PANDA SOFTWARE TO HIGHFREQUENCY KINEMATIC PRECISE POINT POSITIONING[J]. jgg, 2011, 31(4): 132-134.
URL:
http://www.jgg09.com/EN/ OR http://www.jgg09.com/EN/Y2011/V31/I4/132
[1]
YUAN Debao,ZHANG Jian,ZHANG Zhenchao,WEI Shengtao. BDS Clock Error Prediction Based on SAFA-FDGM(1,1) Model
[2]
WANG Wei,XU Fen,WANG Yupu. A Preprocess Method for Gross Error Detection Based on Wavelet Analysis
[3]
WANG Yupu,XUE Shenhui,WANG Wei,DING Yang,LI Boyu,LIU Fengyu. Effect Analysis of Common Prediction Models Specific to Satellite Clock Bias Based on the Principle of Single Difference Prediction
[4]
OUYANG Chenhao, SHI Junbo, HUANG Yongshuai, GUO Jiming. Impact Analysis of CNES Real-Time and Archival Satellite Orbit/Clock Offset Products on BDS PPP
[5]
WANG Run, WANG Jingli, Lü Dong. Research on the Elman Neural Network Algorithm to Predict Navigation Satellite Clock Bias
[6]
HU Yan,WANG Desheng,YANG Yufeng. BDS-3 Ultra-Rapid Clock Offset Prediction Based on EM Algorithm Optimized Relevance Vector Machine
[7]
GUO Zhongchen,SUN Peng,LI Zhichun. Research on the Improved Algorithm of Clock Bias Short-Term Prediction Based on GM(1,1)+AR Model
[8]
RUAN Rengui,WEI Ziqing,JIA Xiaolin. Integer Satellite Clock Estimation with Regional GNSS Network
[9]
WU Meifang, SU Hang, ZHANG Zhe. GPS Real-Time Clock Bias Determination Algorithm Based on Connection of Hourly Observation Files
[10]
XU Yangyin,YANG Yuanxi,ZENG Anmin,MA Yueyuan. Accuracy Assessment of Signal in Space of BDS-3 Global System
[11]
.
[12]
CHEN Yongchang,YUAN Yunbin,AI Qingsong,ZHA Jiuping,ZHAO Chuanbao. A Modified Mixed-Differenced Method for Real-Time GPS Satellite Clock Offset Estimation and Its Realization
[13]
WANG Yang,HU Caibo,XU Jinfeng,WANG Yupu. Performance Analysis of In-Orbit BD-2 Satellite Clock
[14]
JIAO Guoqiang;SONG Shuli. Application Test of iGMAS Integrated Products Based on PPP
[15]
JI Guofeng,YANG Zhiqiang,JIA Xiaolin. Precise Orbit and Clock Products for Multi-GNSS System from MGEX and iGMAS
