The purpose of this paper is to assess the orbital perturbation caused by the gravitational orbit–attitude coupling of spacecraft in the proximity of asteroids.
The gravitational orbit–attitude coupling perturbation (GOACP), which has been neglected before in the close-proximity orbital dynamics about asteroids, is investigated and compared with other orbital perturbations. The GOACP has its origin in the fact that the gravity acting on a non-spherical extended body is actually different from that acting on a point mass located at the body’s center of mass, which is the approximated model in the orbital dynamics. Besides, a case study of a tethered satellite system is given by numerical simulations.
It is found that the ratio of GOACP to the asteroid’s non-spherical gravity is the order of ρ/ae, where ρ is the spacecraft’s characteristic dimension and ae is the asteroid’s mean radius. It can also be seen that as ρ increases, GOACP will also increase but the solar radiation pressure (SRP) will decrease due to the decreasing area-to-mass ratio. The GOACP will be more significant than SRP at small orbital radii for a large-sized spacecraft. Based on the results by analyses and simulations, it can be concluded that GOACP needs to be considered in the orbital dynamics for a large-sized spacecraft in the proximity of a small asteroid.
This study is of great importance for the future asteroids missions for scientific explorations and near-Earth objects mitigation.
The GOACP, which has been neglected before, is revealed and studied.
Orbital perturbation due to orbit-attitude coupling near asteroids
Aircraft Engineering and Aerospace Technology ; 90 , 1 ; 104-113
2018-01-02
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Quantification of attitude effects on orbital dynamics near asteroids
Elsevier | 2019
|MODELING SPACECRAFT ORBIT-ATTITUDE COUPLED DYNAMICS IN CLOSE PROXIMITY TO ASTEROIDS
British Library Conference Proceedings | 2016
|Attitude and orbit coupling control method and attitude and orbit coupling control system
Europäisches Patentamt | 2020
|Orbital Motion Around Asteroids
Wiley | 2015
|