For a satellite formation to maintain its intended design despite present perturbations (formation keeping), to change the formation design (reconfiguration) or to perform a rendezvous maneuver, control forces need to be generated. To do so, chemical and/or electric thrusters are currently the methods of choice. However, their utilization has detrimental effects on small satellites’ limited mass, volume and power budgets. Since the mid-80s, the potential of using differential drag as a means of propellant-less source of control for satellite formation flight is actively researched. This method consists of varying the aerodynamic drag experienced by different spacecraft, thus generating differential accelerations between them. Its main disad...
This paper focuses on the use of aerodynamic forces for CubeSat orbit control. This would enable fle...
This study investigates the use of a linear quadratic terminal controller to reconfigure satellite f...
The Centre for Large Space Structures and Systems Inc. (CLS3) is planning a low Earth orbit formati...
For a satellite formation to maintain its intended design despite present perturbations (formation k...
Using several small, unconnected satellites flying in formation rather than a single monolithic sate...
As the SSA system upgrades its existing capabilities and adds new ones, the potential offered by ine...
The ability to fly satellites in close formations represents a capability that could revolutionize t...
This study investigates the use of a linear quadratic terminal controller to recon-figure satellite ...
The mass, volume and launch constraints of CubeSats has resulted in operators resorting to the drag ...
Differential drag is a promising option to control the relative motion of distributed satellites in ...
Satellite formation flying is a very promising field for future space missions as it holds many adva...
Due to mass and volume constraints on planetary missions, the development of control techniques that...
Autonomous formation flight enables new satellite missions for novel applications. The cost and limi...
Abstract: Control of group of satellites in Low-Earth orbit by aerodynamic force is consid...
The focus of this study is on differential drag for propellantless satellite rendez-vous. This techn...
This paper focuses on the use of aerodynamic forces for CubeSat orbit control. This would enable fle...
This study investigates the use of a linear quadratic terminal controller to reconfigure satellite f...
The Centre for Large Space Structures and Systems Inc. (CLS3) is planning a low Earth orbit formati...
For a satellite formation to maintain its intended design despite present perturbations (formation k...
Using several small, unconnected satellites flying in formation rather than a single monolithic sate...
As the SSA system upgrades its existing capabilities and adds new ones, the potential offered by ine...
The ability to fly satellites in close formations represents a capability that could revolutionize t...
This study investigates the use of a linear quadratic terminal controller to recon-figure satellite ...
The mass, volume and launch constraints of CubeSats has resulted in operators resorting to the drag ...
Differential drag is a promising option to control the relative motion of distributed satellites in ...
Satellite formation flying is a very promising field for future space missions as it holds many adva...
Due to mass and volume constraints on planetary missions, the development of control techniques that...
Autonomous formation flight enables new satellite missions for novel applications. The cost and limi...
Abstract: Control of group of satellites in Low-Earth orbit by aerodynamic force is consid...
The focus of this study is on differential drag for propellantless satellite rendez-vous. This techn...
This paper focuses on the use of aerodynamic forces for CubeSat orbit control. This would enable fle...
This study investigates the use of a linear quadratic terminal controller to reconfigure satellite f...
The Centre for Large Space Structures and Systems Inc. (CLS3) is planning a low Earth orbit formati...