This paper presents closed-form solutions for the problem of long-term satellite relative motion in the presence of J2 perturbations, and introduces a design methodology for long-term passive distance-bounded relative motion. There are two key ingredients of closed-form solutions.One is the model of relative motion; the other is the Hamiltonian model and its canonical solution of the J2 -perturbed absolute motion. The model of relative motion makes no assumptions on the eccentricity of the reference orbit or on the magnitude of the relative distances. Besides, the relative motion model is concise with straightforward physical insight, and consistent with the Hamiltonian model. The Hamiltonian model takes into account the secular, long-perio...
In the growing field of formation flying, most models in literature are devoted to control problems ...
The purpose of this thesis is to examine the secular effects of the J2 oblateness perturbation on cl...
In this paper we consider the relative motion between satellites moving along near circular orbits i...
This paper presents closed-form solutions for the problem of long-term satellite relative motion in ...
Most existing satellite relative motion theories utilize mean elements, and therefore cannot be used...
Finding relative satellite orbits that guarantee long-term bounded relative motion is important for ...
This report presents the canonical Hamiltonian formulation of relative satellite motion. The unpertu...
Long-term passive distance-bounded relative motion in the presence of J2 perturbation
With high-precision DEM (Digital Elevation Model) and GMTI (Ground Moving Target Indicator) as the d...
Formation flying is a key technology enabling a number of missions which a single satellite cannot a...
Many scientific applications require the implementation of satellite formation-flying in various orb...
Formation flying is a new satellite mission concept that is concerned with clusters of satellites in...
The paper offers a vectorial approach to the J2-perturbed relative orbital motion. The model uses me...
Keeping a cluster of satellites within bounded relative distances requires active control, because n...
The long-term dynamics of the geostationary Earth orbits (GEO) is revisited through the application ...
In the growing field of formation flying, most models in literature are devoted to control problems ...
The purpose of this thesis is to examine the secular effects of the J2 oblateness perturbation on cl...
In this paper we consider the relative motion between satellites moving along near circular orbits i...
This paper presents closed-form solutions for the problem of long-term satellite relative motion in ...
Most existing satellite relative motion theories utilize mean elements, and therefore cannot be used...
Finding relative satellite orbits that guarantee long-term bounded relative motion is important for ...
This report presents the canonical Hamiltonian formulation of relative satellite motion. The unpertu...
Long-term passive distance-bounded relative motion in the presence of J2 perturbation
With high-precision DEM (Digital Elevation Model) and GMTI (Ground Moving Target Indicator) as the d...
Formation flying is a key technology enabling a number of missions which a single satellite cannot a...
Many scientific applications require the implementation of satellite formation-flying in various orb...
Formation flying is a new satellite mission concept that is concerned with clusters of satellites in...
The paper offers a vectorial approach to the J2-perturbed relative orbital motion. The model uses me...
Keeping a cluster of satellites within bounded relative distances requires active control, because n...
The long-term dynamics of the geostationary Earth orbits (GEO) is revisited through the application ...
In the growing field of formation flying, most models in literature are devoted to control problems ...
The purpose of this thesis is to examine the secular effects of the J2 oblateness perturbation on cl...
In this paper we consider the relative motion between satellites moving along near circular orbits i...