Paper Info
Title
Multi-criteria genetic optimisation of the manoeuvres of a two-stage launcher
Abstract
The aim of this paper is to study the use of a genetic algorithm (GA) to optimise the ascent trajectory of a conventional two-stage launcher. The equations of motion of this system lack analytical solutions, and the number of adjustable parameters is large enough that the use of some non-traditional optimisation method becomes necessary. Two different missions are considered: first, to reach the highest possible stable, circular Low Earth Orbit (LEO); and second, to maximise the speed of a tangential escape trajectory. In this study, three variables are tuned and optimised by the GA in order to satisfy mission constraints while maximising the target function. The technical characteristics and limitations of the launcher are taken into account in the mission model, and a fixed payload weight is assumed. A variable mutation rate helps expand the search area whenever the population of solutions becomes uniform, and is shown to accelerate convergence of the GA in both cases. The obtained results are in agreement with technical specifications and solutions obtained in the past.
Year
DOI
Venue
2010
10.1016/j.ins.2009.11.001
Inf. Sci.
Keywords
Field
DocType
circular low earth orbit,ascent trajectory,adjustable parameter,technical characteristic,tangential escape trajectory,conventional two-stage launcher,mission model,mission constraint,technical specification,multi-criteria genetic optimisation,different mission,equation of motion,genetic algorithms,satisfiability,mutation rate,analytic solution,genetic algorithm,genetics
Convergence (routing),Population,Mathematical optimization,Technical specifications,Earth's orbit,Equations of motion,Genetic algorithm,Trajectory,Mathematics,Payload
Journal
Volume
Issue
ISSN
180
6
0020-0255
Citations 
PageRank 
References 
2
0.42
5
Authors
2
Name
Order
Citations
PageRank
Fernando Alonso Zotes151.13
Matilde Santos Peñas2255.08