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Home Science News Space

‘Tube map’ around planets and moons made possible by knot theory

April 17, 2024
in Space
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‘Tube map’ around planets and moons made possible by knot theory
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Just as sat-nav did away with the need to argue over the best route home, scientists from the University of Surrey have developed a new method to find the optimal routes for future space missions without the need to waste fuel.  

Just as sat-nav did away with the need to argue over the best route home, scientists from the University of Surrey have developed a new method to find the optimal routes for future space missions without the need to waste fuel.  

The new method uses mathematics to reveal all possible routes from one orbit to another without guesswork or using enormous computer power.  

Danny Owen, who developed the technique at the Surrey Space Centre, said:

“Previously, when the likes of NASA wanted to plot a route, their calculations relied on either brute force or guesswork.

“Our new technique neatly reveals all possible routes a spacecraft could take from A to B, as long as both orbits share a common energy level.

“This makes the task of planning missions much simpler. We think of it as a tube map for space.”   

In recent decades, space missions have increasingly relied on the ability to change the course of a satellite’s path through space without using fuel.  

One way of doing this is to find ‘heteroclinic connections’ – the paths that allow spacecraft to transfer from one orbit to another without using fuel.  

The mathematics for finding these paths is complex – usually calculated by using vast computing power to churn through one option after another or by making an ‘intelligent guess’ and then investigating it further.  

This new technique uses an area of maths called knot theory to quickly generate rough trajectories – which can then be refined. By doing so, space agencies can gain a full list of all possible routes from a designated orbit. They can then choose the one that best suits their mission – much as you might choose a route by studying the tube map.  

The technique was tested successfully on various planetary systems – including the Moon, and the Galilean moons of Jupiter. Both of these are the focus of current and future missions.  

Dr Nicola Baresi, Lecturer in Orbital Mechanics at the University of Surrey, said:  

“Spurred on by NASA’s Artemis programme, the new Moon race is inspiring mission designers around the world to research fuel-efficient routes that can better and more efficiently explore the vicinity of the Moon.  

“Not only does our technique make that cumbersome task more straightforward, but it can also be applied to other planetary systems, such as the icy moons of Saturn and Jupiter.” 

The paper is published in the journal Astrodynamics.  



Journal

Astrodynamics

DOI

10.1007/s42064-024-0201-0

Method of Research

Computational simulation/modeling

Subject of Research

Not applicable

Article Title

Applications of knot theory to the detection of heteroclinic connections between quasi-periodic orbits

Article Publication Date

15-Apr-2024

COI Statement

The authors have no competing interests to declare that are relevant to the content of this article.

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