Add to ORKGThis report describes current work in the numerical computation of multiple burn, fuel-optimal orbit transfers and presents an analysis of the second variation for extremal multiple burn orbital transfers as well as a discussion of a guidance scheme which may be implemented for such transfers. The discussion of numerical computation focuses on the use of multivariate interpolation to aid the computation in the numerical optimization. The second variation analysis includes the development of the conditions for the examination of both fixed and free final time transfers. Evaluations for fixed final time are presented for extremal one, two, and three burn solutions of the first variation. The free final time problem is considered for an extrem...
Particle swarm optimization is used to generate an initial guess for designing fuel-optimal trajecto...
A FORTRAN computer program was developed which automatically targets two and three burn rendezvous m...
This research presents the phased development of an algorithm to plan impulsive orbital maneuvers ba...
This report describes the current state of development of methods for calculating optimal orbital tr...
AbstractThis article presents a systematic direct approach to carry out effective optimization of a ...
For many optimal transfer problems it is reasonable to expect that the minimum time solution is also...
International audienceUnlike the classical variational method to design the neighboring optimal cont...
For many problems it is reasonable to expect that the minimum time solution is also the minimum fuel...
During the last twenty-five years, much attention has been devoted to the problem of optimal orbit t...
An effective method for the design of fuel-optimal transfers in two- and three-body dynamics is pres...
Over the past years, the commercial interest in returning to the Moon and exploring the deep space h...
The problem of minimization of fuel consumption during the atmospheric portion of an aeroassisted, o...
Computer program for transfer orbit trajectory optimization based on Lagrange multipliers, Newton-Ra...
An effective method for the design of fuel-optimal transfers in two- and three-body dynamics is pres...
A novel conversion algorithm is presented that combines the fidelity of indirect optimization method...
Particle swarm optimization is used to generate an initial guess for designing fuel-optimal trajecto...
A FORTRAN computer program was developed which automatically targets two and three burn rendezvous m...
This research presents the phased development of an algorithm to plan impulsive orbital maneuvers ba...
This report describes the current state of development of methods for calculating optimal orbital tr...
AbstractThis article presents a systematic direct approach to carry out effective optimization of a ...
For many optimal transfer problems it is reasonable to expect that the minimum time solution is also...
International audienceUnlike the classical variational method to design the neighboring optimal cont...
For many problems it is reasonable to expect that the minimum time solution is also the minimum fuel...
During the last twenty-five years, much attention has been devoted to the problem of optimal orbit t...
An effective method for the design of fuel-optimal transfers in two- and three-body dynamics is pres...
Over the past years, the commercial interest in returning to the Moon and exploring the deep space h...
The problem of minimization of fuel consumption during the atmospheric portion of an aeroassisted, o...
Computer program for transfer orbit trajectory optimization based on Lagrange multipliers, Newton-Ra...
An effective method for the design of fuel-optimal transfers in two- and three-body dynamics is pres...
A novel conversion algorithm is presented that combines the fidelity of indirect optimization method...
Particle swarm optimization is used to generate an initial guess for designing fuel-optimal trajecto...
A FORTRAN computer program was developed which automatically targets two and three burn rendezvous m...
This research presents the phased development of an algorithm to plan impulsive orbital maneuvers ba...