The analysis of the optimal strategies for the deployment of a spacecraft into a highly elliptic orbit is carried out by means of an indirect optimization procedure, which is based on the theory of optimal control. The orbit peculiarities require that several perturbations are taken into account: an 8 8 model of the Earth potential is adopted and gravitational perturbations from Moon and Sun together with solar radiation pressure are considered. A procedure to guarantee convergence and define the optimal switching structure is outlined. Results concerning missions with up to 4.5 revolutions around the Earth are given, and significant features of this kind of deployment are highlighted. Copyright © 2012 Francesco Simeoni et al.
Indirect optimization of satellite deployment into a highly elliptic orbit / Francesco, Simeoni; Lorenzo, Casalino; Zavoli, Alessandro; Colasurdo, Guido. - In: INTERNATIONAL JOURNAL OF AEROSPACE ENGINEERING. - ISSN 1687-5966. - STAMPA. - 2012:(2012), pp. 1-14. [10.1155/2012/152683]
Indirect optimization of satellite deployment into a highly elliptic orbit
ZAVOLI, ALESSANDRO;COLASURDO, Guido
2012
Abstract
The analysis of the optimal strategies for the deployment of a spacecraft into a highly elliptic orbit is carried out by means of an indirect optimization procedure, which is based on the theory of optimal control. The orbit peculiarities require that several perturbations are taken into account: an 8 8 model of the Earth potential is adopted and gravitational perturbations from Moon and Sun together with solar radiation pressure are considered. A procedure to guarantee convergence and define the optimal switching structure is outlined. Results concerning missions with up to 4.5 revolutions around the Earth are given, and significant features of this kind of deployment are highlighted. Copyright © 2012 Francesco Simeoni et al.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
