This paper presents a convex approach to the optimization of a cooperative rendezvous, that is, the problem of two distant spacecraft that simultaneously operate to get closer. Convex programming guarantees convergence towards the optimal solution in a limited, short, time by using highly efficient numerical algorithms. A combination of lossless and successive convexification techniques is adopted to handle the nonconvexities of the original problem. Specifically, a convenient change of variables and a constraint relaxation are performed, while a successive linearization of the equations of motion is employed to handle the nonlinear dynamics. A filtering technique concerning the recursive update of the reference solution is proposed in order to enhance the algorithm robustness. Numerical results are presented and compared with those provided by an indirect method.
A convex optimization approach for finite-thrust time-constrained cooperative rendezvous / Benedikter, Boris; Zavoli, Alessandro; Colasurdo, Guido. - 171:(2020), pp. 1483-1489. (Intervento presentato al convegno 2019 AAS/AIAA Astrodynamics Specialist Conference tenutosi a Portland, ME; USA).
A convex optimization approach for finite-thrust time-constrained cooperative rendezvous
Boris Benedikter;Alessandro Zavoli;Guido Colasurdo
2020
Abstract
This paper presents a convex approach to the optimization of a cooperative rendezvous, that is, the problem of two distant spacecraft that simultaneously operate to get closer. Convex programming guarantees convergence towards the optimal solution in a limited, short, time by using highly efficient numerical algorithms. A combination of lossless and successive convexification techniques is adopted to handle the nonconvexities of the original problem. Specifically, a convenient change of variables and a constraint relaxation are performed, while a successive linearization of the equations of motion is employed to handle the nonlinear dynamics. A filtering technique concerning the recursive update of the reference solution is proposed in order to enhance the algorithm robustness. Numerical results are presented and compared with those provided by an indirect method.| File | Dimensione | Formato | |
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