Abstract
Several researchers are considering the plausibility of being able to rapidly launch a mission to an asteroid, which would fly in close proximity of the asteroid to deliver an impulse in a particular direction so as to deflect the asteroid from its current orbit. Planetary motion, in general, and the motion of asteroids, in particular, are subject to planetary influences that are characterised by a kind of natural symmetry, which results in an asteroid orbiting in a stable and periodic or almost periodic orbit exhibiting a number of natural orbital symmetries. Tracking and following an asteroid, in close proximity, is the subject of this paper. In this paper, the problem of synthesizing an optimal trajectory to a NEO such as an asteroid is considered. A particular strategy involving the optimization of a co-planar trajectory segment that permits the satellite to approach and fly alongside the asteroid is chosen. Two different state space representations of the Hill–Clohessy–Wiltshire (HCW) linearized equations of relative motion are used to obtain optimal trajectories for a spacecraft approaching an asteroid. It is shown that by using a state space representation of HCW equations where the secular states are explicitly represented, the optimal trajectories are not only synthesized rapidly but also result in lower magnitudes of control inputs which must be applied continuously over extended periods of time. Thus, the solutions obtained are particularly suitable for low thrust control of the satellites orbit which can be realized by electric thrusters.
Highlights
Guirao and Jan AwrejcewiczNear-earth objects (NEOs) moving in resonant, Earth-orbit like orbits are potentially important, as there is always the possibility of a few of them colliding with the Earth at some point in the future
Following the application of a ‘∆v’ impulse the satellite is on a transfer orbit till it intersects the asteroid’s orbit plane where, following a plane change, the satellite is orbiting the Sun in the same plane as the asteroid
When the satellite is at the descending node, the asteroid is at ‘an’
Summary
Near-earth objects (NEOs) moving in resonant, Earth-orbit like orbits are potentially important, as there is always the possibility of a few of them colliding with the Earth at some point in the future. While there are several possible alternate strategies that one could adopt, a particular strategy involving the optimization of a co-planar trajectory segment that permits the satellite to approach and fly alongside the asteroid is chosen It must be said, that HCW equations are not generally used for orbit prediction. When used far away from the reference point their validity is questionable, and are not generally used to design trajectories starting from Earth and flying to an asteroid, which requires solving a fully nonlinear optimal control problem. In this application, they have been used when the spacecraft is in close proximity of the asteroid. The solutions obtained are suitable for low thrust control of the satellites orbit which can be realized by electric thrusters
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