Numerical methods have proven to be reliable tools in generating long-term bounded relative trajectories in nontrivial dynamical environments. Yet, none of the existing procedures have a systematic approach to come up with all of the bounded relative trajectories associated with a variety of satellites in Earth orbit. In this paper, such a systematic procedure is developed based on the assumption that any trajectory, except at critical inclinations, is either periodic or quasi periodic in the four-dimensional Routh reduced system describing the motion of a mass particle about an axisymmetric body. This allows key design parameters to be identified, such as the nodal period and the node drift per nodal period, which are later used to constra...
Assume a constellation of satellites is flying near a given nominal trajectory around L-4 or L-5 in ...
A dynamical understanding of orbits in the Earth-Moon neighborhood that can sustain long-term activi...
This paper builds upon thework of Palmer and Imre exploring the relative motion of satellites on nei...
Since the successful rendezvous of the Gemini VI and VII spacecraft in 1965, spacecraft formation fl...
The relative motion about 4179 Toutatis is studied in order to investigate the feasibility of format...
The possibility of obtaining a natural periodic relative motion of formation flying Earth satellites...
The possibility of obtaining a natural periodic relative motion of formation flying Earth satellites...
As destinations of missions in both human and robotic spaceflight become more exotic, a foundational ...
Finding relative satellite orbits that guarantee long-term bounded relative motion is important for ...
Periodic orbits with respect to an object in an eccentric Keplerian reference orbit can be found in ...
Although recent numerical studies have demonstrated the possibility to obtain entire families of bou...
Searching for naturally bounded relative orbits in a zonal gravitational field is a crucial and chal...
This report presents the canonical Hamiltonian formulation of relative satellite motion. The unpertu...
International audienceUpcoming missions toward remote planetary moons will fly in chaotic dynamic en...
There is an increasing interest in missions employing groups of satellites flying in formations and ...
Assume a constellation of satellites is flying near a given nominal trajectory around L-4 or L-5 in ...
A dynamical understanding of orbits in the Earth-Moon neighborhood that can sustain long-term activi...
This paper builds upon thework of Palmer and Imre exploring the relative motion of satellites on nei...
Since the successful rendezvous of the Gemini VI and VII spacecraft in 1965, spacecraft formation fl...
The relative motion about 4179 Toutatis is studied in order to investigate the feasibility of format...
The possibility of obtaining a natural periodic relative motion of formation flying Earth satellites...
The possibility of obtaining a natural periodic relative motion of formation flying Earth satellites...
As destinations of missions in both human and robotic spaceflight become more exotic, a foundational ...
Finding relative satellite orbits that guarantee long-term bounded relative motion is important for ...
Periodic orbits with respect to an object in an eccentric Keplerian reference orbit can be found in ...
Although recent numerical studies have demonstrated the possibility to obtain entire families of bou...
Searching for naturally bounded relative orbits in a zonal gravitational field is a crucial and chal...
This report presents the canonical Hamiltonian formulation of relative satellite motion. The unpertu...
International audienceUpcoming missions toward remote planetary moons will fly in chaotic dynamic en...
There is an increasing interest in missions employing groups of satellites flying in formations and ...
Assume a constellation of satellites is flying near a given nominal trajectory around L-4 or L-5 in ...
A dynamical understanding of orbits in the Earth-Moon neighborhood that can sustain long-term activi...
This paper builds upon thework of Palmer and Imre exploring the relative motion of satellites on nei...