The dynamics of relative motion in a perturbed orbital environment are exploited based on Gauss\u27 and Cowell\u27s variational equations. The inertial coordinate frame and relative coordinate frame (Hill frame) are used, and a linear high fidelity model is developed to describe the relative motion. This model takes into account the primary gravitational and atmospheric drag perturbations. Then, this model is used in the design of a navigation, guidance, and control system of a chaser vehicle to approach towards and to depart from a target vehicle in proximity operations. Relative navigation uses an extended Kalman filter based on this relative model to estimate the relative position/velocity of the chaser vehicle with respect to the target...
Formation flying is a new satellite mission concept that is concerned with clusters of satellites in...
This dissertation explores new approaches for modeling perturbed and unperturbed satellite relative ...
Paper given at Dynamics and Control of Systems and Structures in Space (DCSSS), 6th conference, Ri...
The dynamics of relative motion in a perturbed orbital environment are exploited based on Gauss’ and...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
In this dissertation, the development of relative navigation, guidance, and control algorithms of an...
Accurate models for spacecraft relative dynamics are essential to the design of high-precision contr...
There is an increasing interest in missions employing groups of satellites flying in formations and ...
In this paper, the development of guidance, navigation, and control algorithms of an autonomous spac...
The problem of relative spacecraft motion estimation is considered with application to various refer...
The study of satellite relative motion has been of great historic interest, primarily due to its app...
In this paper, the development of relative navigation, guidance, and control algorithms of an autono...
The relative motion problem is analyzed, as a linearized case, and as a numerically determined solut...
Formation flying is a new satellite mission concept that is concerned with clusters of satellites in...
This dissertation explores new approaches for modeling perturbed and unperturbed satellite relative ...
Paper given at Dynamics and Control of Systems and Structures in Space (DCSSS), 6th conference, Ri...
The dynamics of relative motion in a perturbed orbital environment are exploited based on Gauss’ and...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
In this dissertation, the development of relative navigation, guidance, and control algorithms of an...
Accurate models for spacecraft relative dynamics are essential to the design of high-precision contr...
There is an increasing interest in missions employing groups of satellites flying in formations and ...
In this paper, the development of guidance, navigation, and control algorithms of an autonomous spac...
The problem of relative spacecraft motion estimation is considered with application to various refer...
The study of satellite relative motion has been of great historic interest, primarily due to its app...
In this paper, the development of relative navigation, guidance, and control algorithms of an autono...
The relative motion problem is analyzed, as a linearized case, and as a numerically determined solut...
Formation flying is a new satellite mission concept that is concerned with clusters of satellites in...
This dissertation explores new approaches for modeling perturbed and unperturbed satellite relative ...
Paper given at Dynamics and Control of Systems and Structures in Space (DCSSS), 6th conference, Ri...