Multi-rendezvous low-thrust trajectory optimization using costate transforming and homotopic approach
Abstract
This paper investigates a method for optimizing multi-rendezvous low-thrust trajectories using indirect methods. An efficient technique, labeled costate transforming, is proposed to optimize multiple trajectory legs simultaneously rather than optimizing each trajectory leg individually. Complex inner-point constraints and a large number of free variables are one main challenge in optimizing multi-leg transfers via shooting algorithms. Such a difficulty is reduced by first optimizing each trajectory leg individually. The results may be, next, utilized as an initial guess in the simultaneous optimization of multiple trajectory legs. In this paper, the limitations of similar techniques in previous research is surpassed and a homotopic approach is employed to improve the convergence efficiency of the shooting process in multi-rendezvous low-thrust trajectory optimization. Numerical examples demonstrate that newly introduced techniques are valid and efficient.
- Publication:
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Astrophysics and Space Science
- Pub Date:
- June 2018
- DOI:
- 10.1007/s10509-018-3334-x
- Bibcode:
- 2018Ap&SS.363..128C
- Keywords:
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- Low thrust;
- Trajectory optimization;
- Indirect method;
- Multi-rendezvous problem;
- Initial costate guessing