物理学报Issue(9):1-9,9.DOI:10.7498/aps.63.099101
利用GOCE卫星数据确定全球重力场模型
Gravity field mo del calculated by using the GOCE data
摘要
Abstract
Global static gravitational field determined by GOCE satellite data has become a hotspot in current research of geodesy. In this paper, a global static gravity field model entitled SWJTU-GO01S up to the degree and order 210 is recovered based on 12 months of GOCE orbit and gradient data from 2011-02-28 to 2012-03-05 with direct approach. GOCE gradient data are filtered by the zero phase finite impulse band-pass digital filter, and then a gradient observation equation is founded directly in gradiometer coordinates, which avoids high-accuracy gradient component loss in accuracy in the conversion process, while the orbit data is processed with short-arc integral approach. The optimal weight of combination result based on SST and SGG data is determined by variance component estimation and the polar gaps is dealt with the Kuala regularization method. Comparison of internal and external precision of SWJTU-GO01S with EGM2008 and with GPS leveling data of North America, shows that the geoid error and cumulative error of the SWJTU-GO01S model with the degree and order 210 are 2.1 cm and 13.7 cm respectively. Compared with the second generation models released by ESA and ITG-GRACE2010S, the accuracy of the model SWJTU-GO01S is higher than that of the model ITG-GRACE2010S and ESA official time-wise and space-wise model in the above degree and order 150. This study provides a reference to further joint multi-class satellite observation data to recover gravity field models.关键词
GOCE卫星/地球重力场模型/方差分量估计/正则化Key words
gravity field and steady-state ocean circulation explorer satellite/gravity field model/variance component estimation/regularization引用本文复制引用
苏勇,范东明,游为..利用GOCE卫星数据确定全球重力场模型[J].物理学报,2014,(9):1-9,9.基金项目
高等学校博士学科点专项科研基金(批准号:2012018412006)、中央高校基本科研业务费专项资金(批准号:SWJTU10ZT02和SWJTU12BR012)和西南交通大学博士研究生创新基金资助的课题 (批准号:2012018412006)
