DOIONLINE

DOIONLINE NO - IJASEAT-IRAJ-DOIONLINE-5330

Publish In
International Journal of Advances in Science, Engineering and Technology(IJASEAT)-IJASEAT
Journal Home
Volume Issue
Issue
Volume-4,Issue-3, Spl. Iss-1  ( Aug, 2016 )
Paper Title
Modelling of Perturbations For Precise Orbit Determination
Author Name
Shen Yu Jun, Tan Yan Quan, Tan Guoxian
Affilition
Raffles Science Institute, Raffles Institution, 1 Raffles Institution Lane, Singapore
Pages
198-203
Abstract
An orbit determination and propagation package is developed in Python to predict satellite trajectories accurately with position differences of within 1 km after one orbit when compared to simulated satellite true position. The effect of Earth’s non-uniform gravitational fields, caused by equatorial bulge and non-sphericity, is modelled using zonal spherical harmonics from J2 to J6 and the orbit is propagated numerically via Runge-Kutta-4 (RK4) method. The full J2-6 gravitational coefficients model yields improvement in position accuracy over the J2-only model. Furthermore, the use of additional state vector observations via differential correction allow for refinement of initial orbital parameters, hence achieving good agreement with simulated satellite positions. The orbit determination and propagation software package is tested using two real-life applications: satellite collision avoidance and Earth observation. The first application is a simulation of the orbital hypervelocity collision between Iridium 33 and Cosmos 2251 using publicly available NORAD Two Line Elements (TLE) data. The two satellites’ simulated time of closest approach is 16:55:40 UTC, 10 February 2009, accurate to within one minute. The second application is a geo-registration of the International Space Station (ISS) using photographs taken by ISS Expedition 35 crew and corresponding ISS TLEs, calculatingits position over a rotating Earth coordinate frame and generating a ground-track. The location of ISS over an “unknown” longitude and latitude location on 15:01:42 UTC 27 March 2013 was interpolated to be 1.00 N, 103.43 E, matching actual ISS position to within 0.1 degrees. Key words- Orbit Propagation, Orbit Determination, Differential Correction, Conjunction Analysis, Geo-registration.
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