Global Trajectory Optimisation: Can We Prune the Solution Space When Considering Deep Space Manoeuvres? [Final Report]

Massimiliano Vasile; Matteo Ceriotti; Gianmarco Radice; Victor M. Becerra; Slawomir J. Nasuto; James D. Anderson

Global Trajectory Optimisation: Can We Prune the Solution Space When Considering Deep Space Manoeuvres? [Final Report]

Massimiliano Vasile, Matteo Ceriotti, Gianmarco Radice, Victor M. Becerra, Slawomir J. Nasuto, James D. Anderson

Mechanical And Aerospace Engineering

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Abstract

This document contains a report on the work done under the ESA/Ariadna study 06/4101 on the global optimization of space trajectories with multiple gravity assist (GA) and deep space manoeuvres (DSM). The study was performed by a joint team of scientists from the University of Reading and the University of Glasgow.

Original language	English
Place of Publication	[Paris]
Publisher	European Space Agency
Number of pages	118
Publication status	Published - 1 Jan 2008

Keywords

multiple gravity-assist transfers
deep-space manoeuvres
hybrid optimal control problems
deterministic techniques
stochastic techniques

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title = "Global Trajectory Optimisation: Can We Prune the Solution Space When Considering Deep Space Manoeuvres? [Final Report]",

abstract = "This document contains a report on the work done under the ESA/Ariadna study 06/4101 on the global optimization of space trajectories with multiple gravity assist (GA) and deep space manoeuvres (DSM). The study was performed by a joint team of scientists from the University of Reading and the University of Glasgow.",

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publisher = "European Space Agency",

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T2 - Can We Prune the Solution Space When Considering Deep Space Manoeuvres? [Final Report]

AU - Vasile, Massimiliano

AU - Ceriotti, Matteo

AU - Radice, Gianmarco

AU - Becerra, Victor M.

AU - Nasuto, Slawomir J.

AU - Anderson, James D.

PY - 2008/1/1

Y1 - 2008/1/1

N2 - This document contains a report on the work done under the ESA/Ariadna study 06/4101 on the global optimization of space trajectories with multiple gravity assist (GA) and deep space manoeuvres (DSM). The study was performed by a joint team of scientists from the University of Reading and the University of Glasgow.

AB - This document contains a report on the work done under the ESA/Ariadna study 06/4101 on the global optimization of space trajectories with multiple gravity assist (GA) and deep space manoeuvres (DSM). The study was performed by a joint team of scientists from the University of Reading and the University of Glasgow.

KW - multiple gravity-assist transfers

KW - deep-space manoeuvres

KW - hybrid optimal control problems

KW - deterministic techniques

KW - stochastic techniques

M3 - Other report

BT - Global Trajectory Optimisation

PB - European Space Agency

CY - [Paris]

ER -

Global Trajectory Optimisation: Can We Prune the Solution Space When Considering Deep Space Manoeuvres? [Final Report]

Abstract

Keywords

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