Title: Fast integration of low orbiter's trajectory perturbed by the earth's non-sphericity
Authors: Hwang, C
Lin, MJ
土木工程學系
Department of Civil Engineering
Keywords: orbit integration;FFT;perturbation;spherical harmonics
Issue Date: 1-Oct-1998
Abstract: A fast algorithm is proposed to integrate the trajectory of a low obiter perturbed by the earth's nonsphericity. The algorithm uses a separation degree to define the low-degree and the high-degree acceleration components, the former computed rigorously, and the latter interpolated from gridded accelerations. An FFT method is used to grid the accelerations. An optimal grid type for the algorithm depends on the trajectory's permissible error, speed, and memory capacity. Using the non-spherical accelerations computed from EGM96 to harmonic degree 360, orbit integrations were performed for a low orbiter at an altitude of 170 km. For a separation degree of 50, the new algorithm, together with the predict-pseudo correct method, speeds up the integration by 145 times compared to the conventional algorithm while keeping the errors in position and velocity below 10(-4) m and 10(-7) mis for a 3-day arc.
URI: http://dx.doi.org/10.1007/s001900050196
http://hdl.handle.net/11536/147669
ISSN: 0949-7714
DOI: 10.1007/s001900050196
Journal: JOURNAL OF GEODESY
Volume: 72
Begin Page: 578
End Page: 585
Appears in Collections:Articles