ENVIRONMENT CORRECTION METHOD OF GROUNDBASED RADAR INTERFEROMETRY
1) School of Geodesy and Geomatics, Wuhan University, Wuhan 430079
2)Laboratory of Precision Engineering and Industrial Surveying of National
Administration of Surveying, Mapping and Geoinformation, Wuhan 430079
Abstract The highfrequency signal was often used by groundbased radar as a communication signal, but it was susceptible to atmospheric effects. An environmental correction of radar signal was required to obtain the monitoring accuracy of better than millimeter in precision deformation monitoring using groundbased radar interferometry. A correction method based on the discrete stable point in the whole environment was proposed. The experiment proved that this method can optimize the measurement results for the smallscale scene.
Key words :
ground-based radar
SF-CW(Stepped-Frequency Continuous Wave)
interferometry
environment correction
discrete stable point
Received: 04 September 2012
Published: 18 June 2013
Cite this article:
Xu Yaming,Zhou Xiao,Wang Peng et al. ENVIRONMENT CORRECTION METHOD OF GROUNDBASED RADAR INTERFEROMETRY[J]. jgg, 2013, 33(3): 41-43.
Xu Yaming,Zhou Xiao,Wang Peng et al. ENVIRONMENT CORRECTION METHOD OF GROUNDBASED RADAR INTERFEROMETRY[J]. jgg, 2013, 33(3): 41-43.
URL:
http://www.jgg09.com/EN/ OR http://www.jgg09.com/EN/Y2013/V33/I3/41
[1]
ZHANG Hongfeng,LIU Ying. Non-Urban Surface Deformation Monitoring Based on Improved PSInSAR [J]. jgg, 2021, 41(6): 568-571.
[2]
YU Shuyuan,YANG Yuanyuan,ZHANG Pengfei,SUN Jun,LUO Jiaji. Monitoring Land Subsidence and Fault Activity in Hefei City Based on MT-InSAR [J]. jgg, 2021, 41(4): 398-402.
[3]
ZHOU Lü, MA Jun, WEN Xuelin, YANG Fei, ZHANG Di, LAO Jianxiong. Dynamic Monitoring and Analysis of Super High-Rise Buildings by Ground-Based Radar Interferometry [J]. jgg, 2021, 41(3): 301-307.
[4]
QIAN Wei,YUE Jianping,SHAN Lijie,HAN Chenyu. Accuracy Analysis of Solving Earth Rotation Parameters Based on VLBI Observation Data [J]. jgg, 2021, 41(12): 1245-1248.
[5]
FAN Haopeng,SUN Zhongmiao,LIU Xiaogang, ZHAI Zhenhe. Research on the Effects of Azimuth on Slant Tropospheric Delay [J]. jgg, 2019, 39(6): 634-638.
[6]
LI Ning,ZHAO Qiang,SUN He. InSAR Observation Results of the 2015 Tajikistan MS 7.4 Earthquake and Its Tectonic Significance [J]. jgg, 2018, 38(1): 43-47.
[7]
LIU Bin,GE Daqing,ZHANG Ling, LI Man,WANG Yan,WANG Yi,ZHANG Xiaobo,JIANG Liming,LIU Lin,SUN Yafei,GAO Binbin. Application of Monitoring Stability after Landslide Based on Ground-Based InSAR [J]. jgg, 2016, 36(8): 674-677.
[8]
Ma Zhiquan,Chen Yanling,Chen Qinming,Yang Zhe,Gao Dezheng. RELIABILITY STUDY ON SEDIMENTATION MONITORING FOR D-INSAR
BY USING ERA-INTERIM DATA AND NEQUICK MODEL [J]. jgg, 2013, 33(4): 61-64.
[9]
Wang Zhiyong,Zhang Jinzhi. LANDSLIDES MONITORING BASED ON INSAR TECHNIQUE [J]. jgg, 2013, 33(3): 87-91.
[10]
Jin Zonghuang,Ding Shijun,Li Tao, He Ping. ON MONITORING TIANJIN AREA SUBSIDENCE FUNNEL WITH
PERSISTENT SCATTERERS INTERFEROMETRY [J]. jgg, 2013, 33(2): 23-26.
[11]
Hong Shunying;Shan Xinjian;Liu Zhirong;Shen Xuhui;Dai Yaqiong;and Jing Feng . CALCULATION AND ANALYSIS OF THREEDIMENSIONALCO-SEISMIC DEFORMATION FIELD CAUSED BY XINJIANGYUTIAN Mw7.2 EARTHQUAKE [J]. , 2013, 33(1): 6-12.
[12]
Yu Yong;Bian Zhengfu;Liu Zhenguo;and Lei Shaogang. PRELIMINARY STUDY ON MONITORING URBAN SURFACE DEFORMATION WITH SBAS [J]. , 2013, 33(1): 133-136.
[13]
Feng Zhijun;Wang Qiang;Cui Juquan;Wang Wei;Chen anfeng;Liu zhuohua;Shen Jian;and Pan Shuangjin. CONSTRUCTION OF GNSS REFERENCE STATION OF SHANDONG PROVINCE [J]. , 2012, 32(Supp.): 76-80.
[14]
Jiang Tingchen;Li Tao ;and Liu Jingnan . DEFORMATION ANALYSIS OF YUTIAN EARTHQUAKE BASED ON ScanSAR INTERFEROMETRY [J]. , 2012, 32(6): 13-16.
[15]
Du Lan;Li Xiaojie;and Wang Ruopu. RELATIVE ORBIT MONITORING OF CEO CO-LOCATED GEOSTATIONARY SATELLITES BY USING SAME BEAM CEI [J]. , 2012, 32(3): 50-54.