On simulation of precise orbit determination of HY-2 with centimeter precision based on satellite-borne GPS technique

The HY-2 satellite carrying a satellite-borne GPS receiver is the first Chinese radar altimeter satellite, whose radial orbit determination precision must reach the centimeter level. Now HY-2 is in the test phase so that the observations are not openly released. In order to study the precise orbit d...

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Veröffentlicht in:	Applied geophysics 2012-03, Vol.9 (1), p.95-107
Hauptverfasser:	Guo, Jin-Yun, Qin, Jian, Kong, Qiao-Li, Li, Guo-Wei
Format:	Artikel
Sprache:	eng
Schlagworte:	Altimeters Earth Earth and Environmental Science Earth Sciences EGM96模型 Geographic information systems Geophysics Geophysics/Geodesy Geotechnical Engineering & Applied Earth Sciences Global Positioning System Global positioning systems GPS GPS卫星 GPS技术 GPS数据 Gravitational fields Gravity Kinematics Mathematical models Orbit determination Orbits Satellite navigation systems Satellites 地球重力场模型定轨精度星载GPS接收机轨道确定
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description	The HY-2 satellite carrying a satellite-borne GPS receiver is the first Chinese radar altimeter satellite, whose radial orbit determination precision must reach the centimeter level. Now HY-2 is in the test phase so that the observations are not openly released. In order to study the precise orbit determination precision and procedure for HY-2 based on the satellite- borne GPS technique, the satellite-borne GPS data are simulated in this paper. The HY-2 satellite-borne GPS antenna can receive at least seven GPS satellites each epoch, which can validate the GPS receiver and antenna design. What＇s more, the precise orbit determination processing flow is given and precise orbit determination experiments are conducted using the HY-2-borne GPS data with both the reduced-dynamic method and the kinematic geometry method. With the 1 and 3 mm phase data random errors, the radial orbit determination precision can achieve the centimeter level using these two methods and the kinematic orbit accuracy is slightly lower than that of the reduced-dynamic orbit. The earth gravity field model is an important factor which seriously affects the precise orbit determination of altimeter satellites. The reduced-dynamic orbit determination experiments are made with different earth gravity field models, such as EIGEN2, EGM96, TEG4, and GEMT3. Using a large number of high precision satellite-bome GPS data, the HY-2 precise orbit determination can reach the centimeter level with commonly used earth gravity field models up to above 50 degrees and orders.
doi_str_mv	10.1007/s11770-012-0319-3
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The earth gravity field model is an important factor which seriously affects the precise orbit determination of altimeter satellites. The reduced-dynamic orbit determination experiments are made with different earth gravity field models, such as EIGEN2, EGM96, TEG4, and GEMT3. 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Geophys</addtitle><addtitle>Applied Geophysics</addtitle><description>The HY-2 satellite carrying a satellite-borne GPS receiver is the first Chinese radar altimeter satellite, whose radial orbit determination precision must reach the centimeter level. Now HY-2 is in the test phase so that the observations are not openly released. In order to study the precise orbit determination precision and procedure for HY-2 based on the satellite- borne GPS technique, the satellite-borne GPS data are simulated in this paper. The HY-2 satellite-borne GPS antenna can receive at least seven GPS satellites each epoch, which can validate the GPS receiver and antenna design. What＇s more, the precise orbit determination processing flow is given and precise orbit determination experiments are conducted using the HY-2-borne GPS data with both the reduced-dynamic method and the kinematic geometry method. With the 1 and 3 mm phase data random errors, the radial orbit determination precision can achieve the centimeter level using these two methods and the kinematic orbit accuracy is slightly lower than that of the reduced-dynamic orbit. The earth gravity field model is an important factor which seriously affects the precise orbit determination of altimeter satellites. The reduced-dynamic orbit determination experiments are made with different earth gravity field models, such as EIGEN2, EGM96, TEG4, and GEMT3. 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Geophys</stitle><addtitle>Applied Geophysics</addtitle><date>2012-03-01</date><risdate>2012</risdate><volume>9</volume><issue>1</issue><spage>95</spage><epage>107</epage><pages>95-107</pages><issn>1672-7975</issn><eissn>1993-0658</eissn><abstract>The HY-2 satellite carrying a satellite-borne GPS receiver is the first Chinese radar altimeter satellite, whose radial orbit determination precision must reach the centimeter level. Now HY-2 is in the test phase so that the observations are not openly released. In order to study the precise orbit determination precision and procedure for HY-2 based on the satellite- borne GPS technique, the satellite-borne GPS data are simulated in this paper. The HY-2 satellite-borne GPS antenna can receive at least seven GPS satellites each epoch, which can validate the GPS receiver and antenna design. What＇s more, the precise orbit determination processing flow is given and precise orbit determination experiments are conducted using the HY-2-borne GPS data with both the reduced-dynamic method and the kinematic geometry method. With the 1 and 3 mm phase data random errors, the radial orbit determination precision can achieve the centimeter level using these two methods and the kinematic orbit accuracy is slightly lower than that of the reduced-dynamic orbit. The earth gravity field model is an important factor which seriously affects the precise orbit determination of altimeter satellites. The reduced-dynamic orbit determination experiments are made with different earth gravity field models, such as EIGEN2, EGM96, TEG4, and GEMT3. Using a large number of high precision satellite-bome GPS data, the HY-2 precise orbit determination can reach the centimeter level with commonly used earth gravity field models up to above 50 degrees and orders.</abstract><cop>Heidelberg</cop><pub>Chinese Geophysical Society</pub><doi>10.1007/s11770-012-0319-3</doi><tpages>13</tpages></addata></record>
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subjects	Altimeters Earth Earth and Environmental Science Earth Sciences EGM96模型 Geographic information systems Geophysics Geophysics/Geodesy Geotechnical Engineering & Applied Earth Sciences Global Positioning System Global positioning systems GPS GPS卫星 GPS技术 GPS数据 Gravitational fields Gravity Kinematics Mathematical models Orbit determination Orbits Satellite navigation systems Satellites 地球重力场模型定轨精度星载GPS接收机轨道确定
title	On simulation of precise orbit determination of HY-2 with centimeter precision based on satellite-borne GPS technique
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