Beschreibung:
This book systematically describes the concepts and principles for multi-satellite relative motion, passive and near passive formation designs, trajectory planning and control for fuel optimal formation maneuvers, and formation flying maintenance control design. As such, it provides a sound foundation for researchers and engineers in this field to develop further theories and pursue their implementations. Though satellite formation flying is widely considered to be a major advance in space technology, there are few systematic treatments of the topic in the literature. Addressing that gap, the book offers a valuable resource for academics, researchers, postgraduate students and practitioners in the field of satellite science and engineering.
This book systematically describes the concepts and principles for multi-satellite relative motion, passive and near passive formation designs, trajectory planning and control for fuel optimal formation maneuvers, and formation flying maintenance control design. As such, it provides a sound foundation for researchers and engineers in this field to develop further theories and pursue their implementations.
Though satellite formation flying is widely considered to be a major advance in space technology, there are few systematic treatments of the topic in the literature. Addressing that gap, the book offers a valuable resource for academics, researchers, postgraduate students and practitioners in the field of satellite science and engineering.
Introduction.- Dynamic Models of Satellite Relative Motion around an Oblate Earth.- Passive and Periodic Satellite Formation Design around an Oblate Earth.- Nonlinear Optimization of Low-Thrust Trajectory for Satellite Formation.- Optimal Control for Satellite Formation Keeping.- Decentralized Control for Attitude Synchronization under Undirected Communication Topology.- Decentralized Control for Attitude Synchronization under directed Communication Topology.