RT Conference Proceedings
T1 Efficiency of tree-search like heuristics to solve complex mixed-integer programming problems applied to space trajectory design
A1 Bellome, A.
A1 Carrillo, M.
A1 Sánchez, J. P.
A1 Ser, J. Del
A1 Kemble, S.
A1 Felicetti, L.
AB In the past, space trajectory optimization was limited to optimal design of transfers to single destinations, where optimality refers to minimum propellant consumption or transfer time. New technologies, and a more daring approach to space, are today making the space community consider missions that target multiple destinations. In the present paper, we focus on missions that aim to visit multiple asteroids within a single launch. The trajectory design of these missions is complicated by the fact that the asteroid sequences are not known a priori but are the objective of the optimization itself. Usually, these problems are formulated as global optimization (GO) problems, under the formulation of mixed-integer non-linear programming (MINLP), on which the decision variables assume both continuous and discrete values. However, beyond the aim of finding the global optimum, mission designers are usually interested in providing a wide range of mission design options reflecting the multi-modality of the problems at hand. In this sense, a Constraint Satisfaction Problem (CSP) formulation is also relevant. With the present paper we focus on these two needs (i.e. tackling both the GO and the CSP) for the asteroid tour problem. First, a tree-search algorithm based upon the Bellman's principle of optimality is described using dynamic programming approach to address the feasibility of solving the GO problem. This results in an efficient and scalable procedure to obtain global optimum solutions within large datasets of asteroids. Secondly, tree-search strategies like Beam Search and Ant Colony Optimization with back-tracking are tested over the CSP formulations. Results show that BS handles better the multi-modality of the search space compared to ACO, as this bias the elite solutions which resulting in the diversity loss.
PB International Astronautical Federation, IAF
SN 9781713843078
SN 0074-1795
YR 2021
FD 2021
LK https://hdl.handle.net/11556/2152
UL https://hdl.handle.net/11556/2152
LA eng
NO Bellome , A , Carrillo , M , Sánchez , J P , Ser , J D , Kemble , S & Felicetti , L 2021 , Efficiency of tree-search like heuristics to solve complex mixed-integer programming problems applied to space trajectory design . in IAF Astrodynamics Symposium 2021 - Held at the 72nd International Astronautical Congress, IAC 2021 . Proceedings of the International Astronautical Congress, IAC , vol. C1 , International Astronautical Federation, IAF , IAF Astrodynamics Symposium 2021 at the 72nd International Astronautical Congress, IAC 2021 , Dubai , United Arab Emirates , 25/10/21 .
NO conference
NO Publisher Copyright: © 2021 by Authors.
DS TECNALIA Publications
RD 31 jul 2024