Problems that concern a large number of possible targets, such as those typical of Global Trajectory Optimization Competitions (GTOC), require a global search for the optimal solution and a local refinement. During the 5th edition of the Global Trajectory Optimization Competition, we used different approximated techniques to perform a global search of suitable asteroid sequences; a local optimization method based on an indirect approach was then used to verify the feasibility of the suggested legs and perform the optimization of multi-leg sequences. All the tools used by our team are presented in this paper. The best solution found is described and discussed.
GTOC5: Results from the Politecnico di Torino and Università di Roma Sapienza / L., Casalino; D., Pastrone; F., Simeoni; Colasurdo, Guido; Zavoli, Alessandro. - In: ACTA FUTURA. - ISSN 2309-1940. - ELETTRONICO. - n. 8:(2014), pp. 29-36. [10.2420/AF08.2014.29]
GTOC5: Results from the Politecnico di Torino and Università di Roma Sapienza
COLASURDO, Guido;ZAVOLI, ALESSANDRO
2014
Abstract
Problems that concern a large number of possible targets, such as those typical of Global Trajectory Optimization Competitions (GTOC), require a global search for the optimal solution and a local refinement. During the 5th edition of the Global Trajectory Optimization Competition, we used different approximated techniques to perform a global search of suitable asteroid sequences; a local optimization method based on an indirect approach was then used to verify the feasibility of the suggested legs and perform the optimization of multi-leg sequences. All the tools used by our team are presented in this paper. The best solution found is described and discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
