[1]
S. Li,, X. X. Huang,, B. Yang, Review of optimization methodologies in global and China trajectory optimization competitions. Progress in Aerospace Sciences, 2018, 102: 60-75.
[2]
D. Izzo, 1st ACT global trajectory optimisation competition: Problem description and summary of the results. Acta Astronautica, 2007, 61(9): 731-734.
[3]
S. G. Zhao,, R. Qi,, J. R. Zhang,, K. H. Xiang,, C. Zhang,, J. Jin, Problem A of 9th China trajectory optimization competition: Problem description and summary of the results. Acta Astronautica, 2018, 150: 178-181.
[4]
B. Yang,, X. X. Huang,, H. W. Yang,, S. Li,, X. W. Liu,, P. Sun,, W. D. Li, Problem A of 9th China trajectory optimization competition: Results found at NUAA. Acta Astronautica, 2018, 150: 182-192.
[5]
Y. C. She,, S. Li,, W. D. Li,, Y. K. Li,, K. Cao, Problem B of 9th China trajectory optimization competition: Results found at NUAA. Acta Astronautica, 2018, 150: 240-249.
[6]
J. T. Clarke,, J. Ajello,, G. Ballester,, L. Ben Jaffel,, J. Connerney,, J. C. Gérard,, G. R. Gladstone,, D. Grodent,, W. Pryor,, J. Trauger, et al. Ultraviolet emissions from the magnetic footprints of Io, Ganymede and Europa on Jupiter. Nature, 2002, 415(6875): 997-1000.
[7]
H. Zhang,, Y. Hu,, Z. Fan,, J. Lv,, H. Ma,, Z. Yu,, M. Huo,, G. Zhang, Jupiter system exploration trajectory design—summary of the winning solution of CTOC10. Astrodynamics, 2021, 5(1): 13-26.