Add to ORKGThis thesis is concerned with the development of a spacecraft guidance which will solve the problem associated with the optimum transfer of a spacecraft between two states. The theoretical development of an existing guidance formulation is shown and this formulation is extended to include a more general mission capability. Specifically, the guidance formulation presented is extended to an operational capability for low-thrust maneuvers. Numerical results are presented which compare the guidance solution and a near optimal solution to the same low-thrust transfer problem. These results indicate that the guidance procedure can be extended to an operational capability for low-thrust maneuvers with performance (propellant expenditure) comparabl...
This research describes and applies the recently introduced, general-purpose variable-time-domain ne...
A closed-loop steering logic based on an optimal (2-guidance is developed here. The guidance system ...
Abstract only availableFaculty Mentor: Dr. Craig Kluever, Mechanical EngineeringThe nonlinear dynami...
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
Abstract: This paper introduces an integrated approach to Guidance, Navigation and Control (GNC) of ...
A satellite launch vehicle not subjected to any perturbations, external or internal, could be guided...
Low-thrust engines are appealing for use on both earth-based satellites and interplanetary spacecraf...
Traditional spacecraft guidance techniques have the objective of deterministically minimizing fuel c...
Traditional spacecraft guidance techniques have the objective of deterministically minimizing fuel c...
Traditional spacecraft guidance techniques have the objective of deterministically minimizing fuel c...
Traditional spacecraft guidance techniques have the objective of deterministically minimizing fuel c...
The problem considered is that of a three-dimensional, minimum time, heliocentric, Earth-Mars transf...
This research describes and applies the recently introduced, general-purpose variable-time-domain ne...
A closed-loop steering logic based on an optimal (2-guidance is developed here. The guidance system ...
Abstract only availableFaculty Mentor: Dr. Craig Kluever, Mechanical EngineeringThe nonlinear dynami...
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
Abstract: This paper introduces an integrated approach to Guidance, Navigation and Control (GNC) of ...
A satellite launch vehicle not subjected to any perturbations, external or internal, could be guided...
Low-thrust engines are appealing for use on both earth-based satellites and interplanetary spacecraf...
Traditional spacecraft guidance techniques have the objective of deterministically minimizing fuel c...
Traditional spacecraft guidance techniques have the objective of deterministically minimizing fuel c...
Traditional spacecraft guidance techniques have the objective of deterministically minimizing fuel c...
Traditional spacecraft guidance techniques have the objective of deterministically minimizing fuel c...
The problem considered is that of a three-dimensional, minimum time, heliocentric, Earth-Mars transf...
This research describes and applies the recently introduced, general-purpose variable-time-domain ne...
A closed-loop steering logic based on an optimal (2-guidance is developed here. The guidance system ...
Abstract only availableFaculty Mentor: Dr. Craig Kluever, Mechanical EngineeringThe nonlinear dynami...