Add to ORKGThis paper deals with the design of optimal multiple gravity assist trajectories with deep space manoeuvres. A pruning method which considers the sequential nature of the problem is presented. The method locates feasible vectors using local optimization and applies a clustering algorithm to find reduced bounding boxes which can be used in a subsequent optimization step. Since multiple local minima remain within the pruned search space, the use of a global optimization method, such as Differential Evolution, is suggested for finding solutions which are likely to be close to the global optimum. Two case studies are presented
This paper presents an incremental approach to the solution of multiple gravity assist trajectories ...
Multiple gravity assist (MGA) trajectories are essential to reach high gravity targets with low prop...
Multiple gravity assist (MGA) trajectories are essential to reach high gravity targets with low prop...
This paper deals with the design of optimal multiple gravity assist trajectories with deep space man...
This paper deals with the design of optimal multiple gravity assist trajectories with deep space man...
This paper deals with the design of optimal multiple gravity assist trajectories with deep space man...
This paper deals with the design of optimal multiple gravity assist trajectories with deep space man...
We introduce and describe the Multiple Gravity Assist problem, a global optimisation problem that is...
We introduce and describe the Multiple Gravity Assist problem, a global optimisation problem that is...
In this paper the preliminary design of multiple gravity-assist trajectories is formulated as a glob...
Multiple gravity assist (MGA) trajectories are essential to reach high gravity targets with low prop...
This report describes the analysis and development of novel tools for the global optimisation of rel...
A multi-objective problem is addressed consisting of finding optimal low-thrust gravity-assist traje...
In this paper the preliminary design of multiple gravity-assist trajectories is formulated as a glob...
Multiple gravity assist (MGA) trajectories represent a particular class of space trajectories in whi...
This paper presents an incremental approach to the solution of multiple gravity assist trajectories ...
Multiple gravity assist (MGA) trajectories are essential to reach high gravity targets with low prop...
Multiple gravity assist (MGA) trajectories are essential to reach high gravity targets with low prop...
This paper deals with the design of optimal multiple gravity assist trajectories with deep space man...
This paper deals with the design of optimal multiple gravity assist trajectories with deep space man...
This paper deals with the design of optimal multiple gravity assist trajectories with deep space man...
This paper deals with the design of optimal multiple gravity assist trajectories with deep space man...
We introduce and describe the Multiple Gravity Assist problem, a global optimisation problem that is...
We introduce and describe the Multiple Gravity Assist problem, a global optimisation problem that is...
In this paper the preliminary design of multiple gravity-assist trajectories is formulated as a glob...
Multiple gravity assist (MGA) trajectories are essential to reach high gravity targets with low prop...
This report describes the analysis and development of novel tools for the global optimisation of rel...
A multi-objective problem is addressed consisting of finding optimal low-thrust gravity-assist traje...
In this paper the preliminary design of multiple gravity-assist trajectories is formulated as a glob...
Multiple gravity assist (MGA) trajectories represent a particular class of space trajectories in whi...
This paper presents an incremental approach to the solution of multiple gravity assist trajectories ...
Multiple gravity assist (MGA) trajectories are essential to reach high gravity targets with low prop...
Multiple gravity assist (MGA) trajectories are essential to reach high gravity targets with low prop...