测绘通报 ›› 2015, Vol. 0 ›› Issue (1): 2-7.doi: 10.13474/j.cnki.11-2246.2015.0001
LIU Hongwei, WANG Zhaokui, ZHANG Yulin
Received:2014-07-15
Online:2015-01-25
Published:2015-01-24
CLC Number:
LIU Hongwei, WANG Zhaokui, ZHANG Yulin. Optimization Design Method for Satellite-to-Satellite Tracking Gravity Filed Measurement Mission[J]. 测绘通报, 2015, 0(1): 2-7.
| [1] 宁津生. 跟踪世界发展动态致力地球重力场研究[J]. 武汉大学学报: 信息科学版, 2001, 26(6): 471-474, 486. [2] 宁津生. 卫星重力探测技术与地球重力场研究[J]. 大地测量与地球动力学, 2002, 22(1): 1-5. [3] 谷振丰, 刘红卫, 王兆魁, 等. 基于引力位系数相对权重的卫星重力场测量分析[J]. 地球物理学进展, 2013, 28(1): 17-23. [4] REIGBER C, SCHWINTZER P, NEUMAYER K H, et al. The CHAMP-only Earth Gravity Field Model EIGEN-2[J]. Advances in Space Research, 2003, 31(8): 1883-1888. [5] TAPLEY B, RIES J, BETTADPUR S, et al. GGM02-An Improved Earth Gravity Field Model from GRACE[J]. Journal of Geodesy, 2005, 79(8): 467-478. [6] LOOMIS B D, NEREM R S, LUTHCKE S B. Simulation Study of a Follow-on Gravity Mission to GRACE[J]. Journal of Geodesy, 2012, 86(5): 319-335. [7] CESARE S, AGUIRRE M, ALLASIO A, et al. The Measurement of Earth's Gravity Field after the GOCE Mission[J]. Acta Astronautica, 2010, 67(7-8): 702-712. [8] MUZI D, ALLASIO A. GOCE: The First Core Earth Explorer of Esa's Earth Observation Programme[J]. Acta Astronautica, 2003, 54(3): 167-175. [9] KOOP R, RUMMEL R. The Future of Satellite Gravimetry[R]. Noordwijk, The Netherlands:ESTEC,2007. [10] KAULA W M. Theory of Satellite Geodesy: Applications of Satellites to Geodesy[M]. Mineola, New York: Dover Publication, Inc., 2000. [11] KIM J, LEE S W. Flight Performance Analysis of GRACE K-band Ranging Instrument with Simulation Data[J]. Acta Astronautica, 2009, 65(11-12): 1571-1581. [12] KANG Z, NAGEL P, PASTOR R. Precise Orbit Determination for GRACE[J]. Advances in Space Research, 2003, 31(8): 1875-1881. [13] KIM J, TAPLEY B D. Error Analysis of a Low-low Satellite-to-Satellite Tracking Mission[J]. Journal of Guidance, Control, and Dynamics, 2002, 25(6): 1100-1106. [14] BALMINO G. Gravity Field Recovery from GRACE: Unique Aspects of the High Precision Inter-satellite Data and Analysis Methods[J]. Space Science Reviews, 2003, 108(1-2): 47-54. |
| [1] | JIA Xiuli. GPS multipath effect snow depth estimation by Gaussian process regression-assisted [J]. Bulletin of Surveying and Mapping, 2022, 0(7): 78-82. |
| [2] | XI Guangyong, GAO Jun, ZOU Dongyao, SHAO Xiaoya. The modeling of RSSI ranging temperature correction in temperature variation environment [J]. Bulletin of Surveying and Mapping, 2022, 0(7): 83-86. |
| [3] | ZHANG Bo, LIU Qiang, XU Guoliang, CAI Renlan, CHENG Feng. Application of GNSS+INS integrated navigation in mine auto-driving trucks [J]. Bulletin of Surveying and Mapping, 2022, 0(7): 143-147. |
| [4] | ZHAO Yinzhi, ZOU Jingui, CAI Lixian, HUANG Gege. An ultra wide band indoor positioning method considering electrical delay [J]. Bulletin of Surveying and Mapping, 2022, 0(4): 1-5,31. |
| [5] | LIU Zhuo, LI Jia, ZHANG Xiang, GUO Lei, LIU Yanyang, XU Haodong, GU Yunyang, CHEN Chonghua. Obtaining high-precision digital elevation model in Antarctica based on TanDEM-X images and ICESat-2 data [J]. Bulletin of Surveying and Mapping, 2022, 0(4): 72-76. |
| [6] | WAN Yingneng, XU Xuehan, LIU Kexian. Integrated navigation algorithm of multi-joint deep-sea vehicle [J]. Bulletin of Surveying and Mapping, 2022, 0(4): 90-95. |
| [7] | LUO Youan, JIANG Aiguo, YANG Fuxin, ZHANG Jie, HE Dongxu, XU Yinglong. Application research of BDS precise point positioning on dynamic positioning system of offshore oil drilling rig [J]. Bulletin of Surveying and Mapping, 2022, 0(4): 111-116. |
| [8] | XIAO Haowei, WANG Jianglin, GUO Hairong, YANG Liyang. Real-time precise point positioning precision analysis based on PPP-B2b service [J]. Bulletin of Surveying and Mapping, 2022, 0(4): 117-121. |
| [9] | DING Renjun, WANG Youkun, ZHANG Junhua, LIU Chen. Kunming zenith wet delay model based on a backpropagation neural network [J]. Bulletin of Surveying and Mapping, 2022, 0(3): 107-110. |
| [10] | GAO Zhiyu, GUO Jinyi, LIU Jie. Application progress of BDS in monitoring crustal deformation [J]. Bulletin of Surveying and Mapping, 2022, 0(3): 32-35. |
| [11] | QIAN Wenjin, ZHANG Lin, ZHANG Zelie, ZENG Pan, JIANG Ziwei, QU Xiaowen. Assessing the L5 positioning performance of IRNSS and QZSS in their primary service areas: stand-alone and combined with GPS [J]. Bulletin of Surveying and Mapping, 2021, 0(10): 88-93. |
| [12] | FENG Zhiqiang, ZHANG Yaodong, HU Danhui, ZHOU Guangyuan, LI Zhaohui, ZHOU Xueming, MAO Xiaopo. Influence analysis of transmission line electromagnetic interference on BDS data quality and accuracy [J]. Bulletin of Surveying and Mapping, 2021, 0(10): 94-97,113. |
| [13] | QIAN Wei, YUE Jianping. Application of MSSA in GPS coodinate series analysis [J]. Bulletin of Surveying and Mapping, 2021, 0(9): 49-52,63. |
| [14] | ZHANG Shifang, ZHANG Jin. Application of Kalman filter in GNSS monitoring of ground subsidence in Xishan coalfield of Shanxi province [J]. Bulletin of Surveying and Mapping, 2021, 0(9): 103-107. |
| [15] | LI Jiangang, LI Honghui, CHAI Xiangjun, WANG Tianyu. Accuracy evaluation of GPS, BDS and GPS+BDS precise point positioning [J]. Bulletin of Surveying and Mapping, 2021, 0(9): 124-129. |
| Viewed | ||||||
|
Full text |
|
|||||
|
Abstract |
|
|||||
