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http://dx.doi.org/10.5140/JASS.2005.22.4.463

DYNAMIC MODEL DEVELOPMENT FOR INTERPLANETARY NAVIGATION  

Park, Eun-Seo (Dept. of Astronomy and Space Science, Yonsei University)
Song, Young-Joo (Dept. of Astronomy and Space Science, Yonsei University)
Yoo, Sung-Moon (Dept. of Astronomy and Space Science, Yonsei University)
Park, Sang-Young (Dept. of Astronomy and Space Science, Yonsei University)
Choi, Kyu-Hong (Dept. of Astronomy and Space Science, Yonsei University)
Yoon, Jae-Cheol (Korea Aerospace Research Institute)
Yim, Jo-Ryeong (Korea Aerospace Research Institute)
Choi, Joon-Min (Korea Aerospace Research Institute)
Kim, Byung-Kyo (Korea Aerospace Research Institute)
Publication Information
Journal of Astronomy and Space Sciences / v.22, no.4, 2005 , pp. 463-472 More about this Journal
Abstract
In this paper, the dynamic model development for interplanetary navigation has been discussed. The Cowell method for special perturbation theories was employed to develop an interplanetary trajectory propagator including the perturbations due to geopotential, the Earth's dynamic polar motion, the gravity of the Sun, the Moon and the other planets in the solar system, the relativistic effect of the Sun, solar radiation pressure, and atmospheric drag. The equations of motion in dynamic model were numerically integrated using Adams-Cowell 11th order predictor-corrector method. To compare the influences of each perturbation, trajectory propagation was performed using initial transfer orbit elements of the Mars Express mission launched in 2003, because it can be the criterion to choose proper perturbation models for navigation upon required accuracy. To investigate the performance of dynamic model developed, it was tested whether the spacecraft can reach the Mars. The interplanetary navigation tool developed in this study demonstrated the spacecraft entering the Mars SOI(Sphere of Influence) and its velocity .elative to the Mars was less than the escape velocity of the Mars, hence, the spacecraft can arrive at the target planet. The obtained results were also verified by using the AGI Satellite Tool Kit. It is concluded that the developed program is suitable for supporting interplanetary spacecraft mission for a future Korean Mars mission.
Keywords
interplanetary navigation; dynamic model; trajectory propagation; special perturbation theories;
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