TY - GEN
T1 - A satellite ephemeris correction calculating algorithm based on the Hill differential equation
AU - Zhao, Rui Bin
AU - Shao, Bo
AU - Li, Rui
AU - Huang, Zhi Gang
PY - 2013
Y1 - 2013
N2 - The Hill differential equation is used to describe the change characteristic of the ephemeris prediction error in order to calculate the satellite broadcast ephemeris error and the error change rate. After the ECEF coordinate system converses the satellite inertial coordinate system, both the satellite ephemeris correction ΔRjS and the correction accuracy PjS,ocan be calculated by the Kalman filter. When the GEO, IGSO and MEO satellites move over the China, the calculation algorithms based on the weighted least square, the velocity model of the Kalman filter and the Hill differential equation are compared in the computing performance of the ephemeris corrections by using the reference date of IGS website. The simulation results show that: the ephemeris correction solver value based on the Hill differential equation can accurately reflect the ephemeris error characteristics at the current time. And it is able to correctly reflect the perturbation impact for the satellite ephemeris error. The Hill differential equation method is more suitable at the master station for engineering application about the MEO, IGSO and GEO satellites.
AB - The Hill differential equation is used to describe the change characteristic of the ephemeris prediction error in order to calculate the satellite broadcast ephemeris error and the error change rate. After the ECEF coordinate system converses the satellite inertial coordinate system, both the satellite ephemeris correction ΔRjS and the correction accuracy PjS,ocan be calculated by the Kalman filter. When the GEO, IGSO and MEO satellites move over the China, the calculation algorithms based on the weighted least square, the velocity model of the Kalman filter and the Hill differential equation are compared in the computing performance of the ephemeris corrections by using the reference date of IGS website. The simulation results show that: the ephemeris correction solver value based on the Hill differential equation can accurately reflect the ephemeris error characteristics at the current time. And it is able to correctly reflect the perturbation impact for the satellite ephemeris error. The Hill differential equation method is more suitable at the master station for engineering application about the MEO, IGSO and GEO satellites.
KW - Calculating algorithm
KW - Hill differential equation
KW - Kalman filter
KW - Satellite ephemeris correction
KW - Satellite navigation
UR - https://www.scopus.com/pages/publications/84883046675
U2 - 10.4028/www.scientific.net/AMM.336-338.1682
DO - 10.4028/www.scientific.net/AMM.336-338.1682
M3 - 会议稿件
AN - SCOPUS:84883046675
SN - 9783037857519
T3 - Applied Mechanics and Materials
SP - 1682
EP - 1687
BT - Industrial Instrumentation and Control Systems II
T2 - 2013 2nd International Conference on Measurement, Instrumentation and Automation, ICMIA 2013
Y2 - 23 April 2013 through 24 April 2013
ER -