RESEARCH AND APPLICATION OF REGIONAL NO-NET-ROTATION REFERENCE FRAME
Hu Xinkang 1) ;Wang Qian 2) ;Ma Qing 1) ; and Du Xuesong 1)
1)First Crust Monitoring and Application Center, CEA, Tianjin 3001802)Institute of Armament,Second Artillery of PLA,Beijing 100085
Abstract A new concept of regional NoNetRotation (NNR) reference frame for researching crustal movement is proposed. The GPS data observed in Chinese mainland and the surrounding areas is processed by use of this reference frame and a new crustal movement velocity field is obtained. The new velocity field describes very well the different kinds of crustal movements, and topographic and geomorphic phenomena in Chinese mainland. The research indicates there is a large leftlateral movement trend in the eastern China, which covers nearly a half of the area of Chinese mainland and affects the crustal movement in the entire eastern China and its adjacent areas.It is considered that the presentday coastline of China seas is just resulted from such a leftlateral movement, and Stype coastline will be more curved in the future.
Key words :
Tisserand condition
regional NNR reference frame
GPS
crustal deformation movement
left-rotation movemeant in eastern China
Received: 01 January 1900
Corresponding Authors:
Hu Xinkang
Cite this article:
Hu Xinkang ,Wang Qian ,Ma Qing et al. RESEARCH AND APPLICATION OF REGIONAL NO-NET-ROTATION REFERENCE FRAME[J]. , 2007, 27(2): 52-60.
Hu Xinkang ,Wang Qian ,Ma Qing et al. RESEARCH AND APPLICATION OF REGIONAL NO-NET-ROTATION REFERENCE FRAME[J]. jgg, 2007, 27(2): 52-60.
URL:
http://www.jgg09.com/EN/ OR http://www.jgg09.com/EN/Y2007/V27/I2/52
[1]
ONG Qi,GAO Ertao,YU Hangming,LAN Yanping. Research on the Sensitivity of Deep Slip Inversion for Earthquake Fault Slip Constrained by InSAR and GPS Geodetic Deformation Data
[2]
WANG Xiaolei,NIU Zijin,HE Xiufeng. Precipitation Analysis and Judgment Based on GPS Water Vapor Retrieval and GPS-IR
[3]
ZHANG Jian,ZHAO Bin,WANG Dongzhen,WANG Haibin,LIU Zhijun. Probing the Rheological Structure of Southern Tibet from the Postseismic Deformation of the 2015 MW 7.8 Nepal Earthquake
[4]
TIAN Xiao,ZHAN Wei,ZHENG Hongyan,YIN Haiquan. Characteristics of Present-Day 3D Crustal Movement of Sichuan-Yunnan Region
[5]
ZHAO Wenhao,LIU Genyou,WANG Shengliang,GAO Ming. GPS-L1/BDS-B1 Non-Overlapping Frequency Tight Combination Relative Positioning
[6]
ZHANG Bo,YANG Guolin,SUN Xuexian,LIU Tao,AN Xuwei. The Influence of Atmospheric Load on the Crust and Gravity Changes in the Lanxin Railway Area
[7]
LIU Zhongguan,YUAN Linguo,CHEN Changfu,CHENG Shuai,ZHANG Di. Modeling Accuracy Analysis of Ocean Tide Load Displacement in New Zealand
[8]
DAI Hongbao,TANG Hongtao. Analysis of Tectonic Stress Field Characteristics of Longxian-Baoji Fault Zone Based on GPS Data
[9]
WANG Dongzhen, ZHAO Bin, YU Jiansheng, TAN Kai. Can Vertical Crustal Deformation Be Monitored by Campaign GPS?——Taking Chinese Mainland as Example
[10]
LU Tieding, XIE Jianxiong. EEMD-Multiscale Permutation Entropy Noise Reduction Method for GPS Elevation Time Series
[11]
GAO Chen,CAO Jun,LIU Shufeng,MA Dong,LIU Siyu. The Current Surface Deformation Characteristics of Northern Margin Fault of Yangyuan Basin Based on GPS and SBAS-InSAR
[12]
LIU Jie,XU Keke,FANG Jian,ZHANG Weimin,DU Zongliang. Analysis of Crustal Deformation in the Southern Margin of the Qinghai-Tibet Plateau Based on Modern Geodetic Techniques
[13]
MA Xiangtai,ZHONG Shiming,ZHANG Jie,HU Fushuai. Accuracy Analysis of Doppler Velocimetry and Kinematic PPP Velocity Determination with BDS/GPS
[14]
.
[15]
.
