This report presents the canonical Hamiltonian formulation of relative satellite motion. The unperturbed Hamiltonian model is shown to be equivalent to the well known Hill-Clohessy-Wilshire (HCW) linear formulation. The in°uence of perturbations of the nonlinear Gravitational potential and the oblateness of the Earth; J2 perturbations are also modelled within the Hamiltonian formulation. The modelling incorporates eccentricity of the reference orbit. The corresponding Hamiltonian vector ¯elds are computed and implemented in Simulink. A numerical method is presented aimed at locating periodic or quasi-periodic relative satellite motion. The numerical method outlined in this paper is applied to the Hamiltonian system. Although the orbits co...
This research introduces a novel approach to the analysis of relative motion modelling of free and t...
This paper presents a Hamiltonian approach to modelling relative coorbital motion based on derivatio...
Since the successful rendezvous of the Gemini VI and VII spacecraft in 1965, spacecraft formation fl...
In this paper, the monodromy variant of Newton’s method is applied to locate periodic or quasi-perio...
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...
The possibility of obtaining a natural periodic relative motion of formation flying Earth satellites...
This paper builds upon thework of Palmer and Imre exploring the relative motion of satellites on nei...
Formation flying is a key technology enabling a number of missions which a single satellite cannot a...
The dynamics of a rigid body in a central gravitational eld can be modelled by a Hamiltonian system...
Finding relative satellite orbits that guarantee long-term bounded relative motion is important for ...
Using a canonical formulation, the stability of the rotational motion of artificial satellites is an...
The possibility of obtaining a natural periodic relative motion of formation flying Earth satellites...
A numerical approach for obtaining periodic orbits of satellite relative motion is proposed, based o...
The influence of inertia, eccentricity and atmospheric forces on the attitude dynamics of gravity or...
This research introduces a novel approach to the analysis of relative motion modelling of free and t...
This paper presents a Hamiltonian approach to modelling relative coorbital motion based on derivatio...
Since the successful rendezvous of the Gemini VI and VII spacecraft in 1965, spacecraft formation fl...
In this paper, the monodromy variant of Newton’s method is applied to locate periodic or quasi-perio...
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...
The possibility of obtaining a natural periodic relative motion of formation flying Earth satellites...
This paper builds upon thework of Palmer and Imre exploring the relative motion of satellites on nei...
Formation flying is a key technology enabling a number of missions which a single satellite cannot a...
The dynamics of a rigid body in a central gravitational eld can be modelled by a Hamiltonian system...
Finding relative satellite orbits that guarantee long-term bounded relative motion is important for ...
Using a canonical formulation, the stability of the rotational motion of artificial satellites is an...
The possibility of obtaining a natural periodic relative motion of formation flying Earth satellites...
A numerical approach for obtaining periodic orbits of satellite relative motion is proposed, based o...
The influence of inertia, eccentricity and atmospheric forces on the attitude dynamics of gravity or...
This research introduces a novel approach to the analysis of relative motion modelling of free and t...
This paper presents a Hamiltonian approach to modelling relative coorbital motion based on derivatio...
Since the successful rendezvous of the Gemini VI and VII spacecraft in 1965, spacecraft formation fl...