In this paper, we treat a formation initialization problem for a multiple spacecraft formation wherein a collective of spacecraft, initially located on a pay load delivery vehicle, are required to maneuver and acquire a specified formation pattern. We focus on the modeling and analysis of fuel optimal formation initialization by exploiting a multi-agent, fuel optimal, spacecraft formation reconfiguration methodology. Specifically, we address the formation initialization problem using a hybrid multi-agent optimization architecture, which decomposes the multi-agent optimal control problem as maneuver optimization, task assignment, and parameter optimization problems. In this paper, maneuver optimization, task assignment, and parameter optimization are performed using calculus of variation, dynamic-programming, and genetic algorithm, respectively. Finally, we provide illustrative simulations to show the efficacy of our proposed fuel-optimal formation initialization control architecture.
Fuel optimal initialization of a spacecraft formation
2003
6 Seiten, 20 Quellen
Aufsatz (Konferenz)
Englisch
Formation-Initialization Algorithm for N Spacecraft
NTRS | 2007
|Initialization of Distributed Spacecraft Formations
Springer Verlag | 2004
|Initialization of Distributed Spacecraft Formations
Online Contents | 2004
|