Add to ORKGThe problem of real time guidance and optimal control of Aeroassisted Orbit Transfer Vehicles (AOTV's) was addressed using singular perturbation theory as an underlying method of analysis. Trajectories were optimized with the objective of minimum energy expenditure in the atmospheric phase of the maneuver. Two major problem areas were addressed: optimal reentry, and synergetic plane change with aeroglide. For the reentry problem, several reduced order models were analyzed with the objective of optimal changes in heading with minimum energy loss. It was demonstrated that a further model order reduction to a single state model is possible through the application of singular perturbation theory. The optimal solution for the reduced problem def...
An approximate analytic solution is developed for the problem of maximizing the range of an aircraft...
Analytical models are presented for optimal trajectories and reentry guidance of the space shuttle o...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2007.In...
The atmospheric portion of the trajectories for the aeroassisted coplanar orbit transfer was investi...
A hierarchical real time algorithm for optimal three dimensional control of aircraft is described. S...
To support the Global Strike mission, an autonomous trajectory optimization technique is presented t...
A collection of analytical studies is presented related to unconstrained and constrained aircraft (a...
To support the Global Strike mission, an autonomous trajectory optimization technique is presented t...
While continuing the application of the inverse dynamics approach in obtaining the optimal numerical...
The objective of this research effort was to develop a real-time guidance approach for launch vehicl...
The problem of minimization of fuel consumption during the atmospheric portion of an aeroassisted, o...
A regular perturbation analysis is presented. Closed-loop simulations were performed with a first or...
The Theoretical Mechanics Branch has as one of its long-range goals to work toward solving real-time...
The objective of this dissertation is to investigate a fast and reliable method to generate three-di...
Effort was directed toward the problems of the real time trajectory optimization and guidance law de...
An approximate analytic solution is developed for the problem of maximizing the range of an aircraft...
Analytical models are presented for optimal trajectories and reentry guidance of the space shuttle o...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2007.In...
The atmospheric portion of the trajectories for the aeroassisted coplanar orbit transfer was investi...
A hierarchical real time algorithm for optimal three dimensional control of aircraft is described. S...
To support the Global Strike mission, an autonomous trajectory optimization technique is presented t...
A collection of analytical studies is presented related to unconstrained and constrained aircraft (a...
To support the Global Strike mission, an autonomous trajectory optimization technique is presented t...
While continuing the application of the inverse dynamics approach in obtaining the optimal numerical...
The objective of this research effort was to develop a real-time guidance approach for launch vehicl...
The problem of minimization of fuel consumption during the atmospheric portion of an aeroassisted, o...
A regular perturbation analysis is presented. Closed-loop simulations were performed with a first or...
The Theoretical Mechanics Branch has as one of its long-range goals to work toward solving real-time...
The objective of this dissertation is to investigate a fast and reliable method to generate three-di...
Effort was directed toward the problems of the real time trajectory optimization and guidance law de...
An approximate analytic solution is developed for the problem of maximizing the range of an aircraft...
Analytical models are presented for optimal trajectories and reentry guidance of the space shuttle o...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2007.In...