Add to ORKGAn expanding interest in mission design strategies that exploit libration point regions demands the continued development of enhanced, efficient, control algorithms for station-keeping and formation maintenance. This paper discusses the development of a non-linear, formation maintenance, control algorithm for trajectories in the vicinity of a libration point. However, the formulation holds for any trajectory governed by the equations of motion for the restricted three body problem. The control law guarantees exponential convergence, based on a Lyaponov analysis. FreeFlyer and MATLAB provide the simulation environment for controller performance evaluation. The simulation, modeled after the MAXIM Pathfinder mission, maintains the relative pos...
Unstable orbits about the collinear libration points require stationkeeping maneuvers to maintain th...
In deep space exploration, the libration points (especially L2 point) of solar-earth system is a re-...
The autonomous formation flying control algorithm developed by the Goddard Space Flight Center (GSFC...
Multi-spacecraft formations, evolving near the vicinity of the libration points of the Sun-Earth/Moo...
The work this paper describes identifies continuous natural relative trajectories near the collinear...
Spacecraft formations possess many applications in the future of space exploration. During the last ...
Space based observatory and interferometry missions, such as Terrestrial Planet Finder (TPF), Stella...
Three-dimensional orbits in the vicinity of the interior libration point (L1) of the Sun-Earth/Moon ...
Unstable orbits about the collinear libration points require stationkeeping maneuvers to maintain th...
Formation °ying is an important concept demanding reliable and accurate techniques for the recon¯gur...
The dynamic analysis of a two-spacecraft Coulomb formation at Earth-Moon libration points is address...
Precision Formation Flying is an enabling technology for a variety of proposed space-based observato...
In this paper, we present a method for trajectory generation and adaptive full-state feedback contro...
With the development of technologies that make Distributed Space Systems (DSS) a realistic option fo...
A new method for L2 libration-point orbit stationkeeping is proposed in this paper using continuous ...
Unstable orbits about the collinear libration points require stationkeeping maneuvers to maintain th...
In deep space exploration, the libration points (especially L2 point) of solar-earth system is a re-...
The autonomous formation flying control algorithm developed by the Goddard Space Flight Center (GSFC...
Multi-spacecraft formations, evolving near the vicinity of the libration points of the Sun-Earth/Moo...
The work this paper describes identifies continuous natural relative trajectories near the collinear...
Spacecraft formations possess many applications in the future of space exploration. During the last ...
Space based observatory and interferometry missions, such as Terrestrial Planet Finder (TPF), Stella...
Three-dimensional orbits in the vicinity of the interior libration point (L1) of the Sun-Earth/Moon ...
Unstable orbits about the collinear libration points require stationkeeping maneuvers to maintain th...
Formation °ying is an important concept demanding reliable and accurate techniques for the recon¯gur...
The dynamic analysis of a two-spacecraft Coulomb formation at Earth-Moon libration points is address...
Precision Formation Flying is an enabling technology for a variety of proposed space-based observato...
In this paper, we present a method for trajectory generation and adaptive full-state feedback contro...
With the development of technologies that make Distributed Space Systems (DSS) a realistic option fo...
A new method for L2 libration-point orbit stationkeeping is proposed in this paper using continuous ...
Unstable orbits about the collinear libration points require stationkeeping maneuvers to maintain th...
In deep space exploration, the libration points (especially L2 point) of solar-earth system is a re-...
The autonomous formation flying control algorithm developed by the Goddard Space Flight Center (GSFC...