Optimal transfer between close near-circular orbits
Abstract
A nonlinear analysis is carried out for the optimal transfer between close near-circular noncoplanar orbits with no limit on time. The degeneracy of the linear analyses of Marec and Edelbaum is, thereby, removed and with the aid of a generalized Jacobi test, it is established that the minimum-impulse transfer requires, at most, three impulses. A field of extremals is generated in an orbit element space starting with the initial state and anticipated adjoint variables and integrating these variables by using the optimal thrust control law that maximizes the variational Hamiltonian. The nonoptimality of any four-impulse strategy is determined numerically by observing the reflection of every extremal from either an envelope (conjugate point test) or a switching surface on or before the application of the fourth impulse. This test is carried out in Regions I, II, and III of Marec, as well as the special transition region of Breakwell near the boundary of Region III.
- Publication:
-
Rome International Astronautical Federation Congress
- Pub Date:
- September 1981
- Bibcode:
- 1981rome.iafcV....K
- Keywords:
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- Circular Orbits;
- Optimal Control;
- Orbital Elements;
- Trajectory Optimization;
- Transfer Orbits;
- Hamiltonian Functions;
- Linear Equations;
- Variational Principles;
- Astrodynamics