This dissertation develops a methodology for automated trajectory control of a spacecraft about a non-maneuvering target. The methodology utilizes relative orbital elements (ROEs), combined with guidance laws based upon artificial potential functions (APFs), to perform automated trajectory planning and maneuver design. The investigation provides a definitive reference on the definition and use of ROEs for relative proximity operations. The detailed derivation of ROEs is provided, along with transformations between ROEs and relative Cartesian state elements, characteristics of unforced motion in terms of ROEs, and the effect of impulsive maneuvers on ROEs. Operationally-useful guidance algorithms utilizing ROEs are developed and demonstra...
The word 'rendezvous' implies a pre-arranged meeting between two entities for a specific purpose. Th...
The Rendezvous and Docking (RVD) mission is one of the most complex and interesting space missions....
This paper outlines a method based on the theory of artificial potential fields combined with slidin...
The data sets provided here can be used to recreate the plots of the paper “Trajectory Design for Pr...
This paper presents an innovative approach to design relative trajectories suitable for close-proxim...
A control methodology to design and establish spacecraft formations is presented. The intuitive desi...
The design of a closed-loop guidance algorithm for autonomous relative motion is an important issue ...
In this dissertation, the development of relative navigation, guidance, and control algorithms of an...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
Recent space missions rely more and more on the cooperation between different spacecraft in order to...
This paper details the development and evaluation of potential function guidance for path constraine...
This paper combines Guidance and Control (GC) algorithms for spacecraft proximity operations in pres...
In this paper, the development of guidance, navigation, and control algorithms of an autonomous spac...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
The purpose of the present paper is to study an autonomous spacecraft rendezvous and docking (RVD) m...
The word 'rendezvous' implies a pre-arranged meeting between two entities for a specific purpose. Th...
The Rendezvous and Docking (RVD) mission is one of the most complex and interesting space missions....
This paper outlines a method based on the theory of artificial potential fields combined with slidin...
The data sets provided here can be used to recreate the plots of the paper “Trajectory Design for Pr...
This paper presents an innovative approach to design relative trajectories suitable for close-proxim...
A control methodology to design and establish spacecraft formations is presented. The intuitive desi...
The design of a closed-loop guidance algorithm for autonomous relative motion is an important issue ...
In this dissertation, the development of relative navigation, guidance, and control algorithms of an...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
Recent space missions rely more and more on the cooperation between different spacecraft in order to...
This paper details the development and evaluation of potential function guidance for path constraine...
This paper combines Guidance and Control (GC) algorithms for spacecraft proximity operations in pres...
In this paper, the development of guidance, navigation, and control algorithms of an autonomous spac...
In this paper, the dynamics of the relative motion problem in a perturbed orbital environment are ex...
The purpose of the present paper is to study an autonomous spacecraft rendezvous and docking (RVD) m...
The word 'rendezvous' implies a pre-arranged meeting between two entities for a specific purpose. Th...
The Rendezvous and Docking (RVD) mission is one of the most complex and interesting space missions....
This paper outlines a method based on the theory of artificial potential fields combined with slidin...