Low-thrust maneuvers from high-elliptical orbits are of peculiar interest because they allow reducing of fuel consumption in comparison with high-thrust maneuvers and reducing of duration of flight and of destructive influence of radiation belts in comparison with spiral boost from low near-circular orbits. With the help of maximum principle the optimization problem is reduced to two-boundary problem and is solved by modified Newton method. A method based on the idea of transferring from approximately optimal trajectory to an optimal one, which allows getting initial data for solving two-boundary problem is described. Two modifications of the problem are considered: the first - with permanent propulsion, the second – with ability of switching the propulsion off and on. The direction of low thrust is unconstrained. The comparison of two types of trajectories and control is done.

Theoretical and applied problems of mechanics

Akhmetshin Rauf Zulfarovich,  axmetro@yandex.ru,  KIAM RAS