Trajectory clustering, modelling, and selection with the focus on airspace protection
Trajectory clustering, modelling, and selection with the focus on airspace protection
Take-off and landing are the periods of a flight where aircraft are most vulnerable to a ground based rocket attack by terrorists. While aircraft approach and depart from airports on pre-defined flight paths, there is a degree of uncertainty in the trajectory of each individual aircraft. Capturing and characterizing these deviations is important for accurate strategic planning for the defence of airports against terrorist attack. A methodology is demonstrated whereby approach and departure trajectories to a given airport are characterized statistically from historical data. It uses a two-step process of first clustering to extract the common trend, and then modelling uncertainty using Gaussian processes. Furthermore it is shown that this approach can be used to either select probabilistic regions of airspace where trajectories are likely and - if required - can automatically generate a set of representative trajectories, or select key trajectories that are both likely and critically vulnerable. An evaluation of the methodology is demonstrated on an example data-set collected by the ground radar at an airport. The evaluation indicates that 99.8% of the calculated footprint underestimates less than 5% when replacing the original trajectory data with a set of representative trajectories
trajectories, gaussian processes
Eerland, Willem
7f5826c3-536f-4fdc-955e-0f9870c96a0e
Box, Simon
2bc3f3c9-514a-41b8-bd55-a8b34fd11113
14 January 2016
Eerland, Willem
7f5826c3-536f-4fdc-955e-0f9870c96a0e
Box, Simon
2bc3f3c9-514a-41b8-bd55-a8b34fd11113
Eerland, Willem and Box, Simon
(2016)
Trajectory clustering, modelling, and selection with the focus on airspace protection.
Infotech @ AIAA SciTech 2016.
(doi:10.2514/6.2016-1411).
Abstract
Take-off and landing are the periods of a flight where aircraft are most vulnerable to a ground based rocket attack by terrorists. While aircraft approach and depart from airports on pre-defined flight paths, there is a degree of uncertainty in the trajectory of each individual aircraft. Capturing and characterizing these deviations is important for accurate strategic planning for the defence of airports against terrorist attack. A methodology is demonstrated whereby approach and departure trajectories to a given airport are characterized statistically from historical data. It uses a two-step process of first clustering to extract the common trend, and then modelling uncertainty using Gaussian processes. Furthermore it is shown that this approach can be used to either select probabilistic regions of airspace where trajectories are likely and - if required - can automatically generate a set of representative trajectories, or select key trajectories that are both likely and critically vulnerable. An evaluation of the methodology is demonstrated on an example data-set collected by the ground radar at an airport. The evaluation indicates that 99.8% of the calculated footprint underestimates less than 5% when replacing the original trajectory data with a set of representative trajectories
Text
2016_Eerland_Box_trajectory-modelling.pdf
- Author's Original
More information
Submitted date: 1 December 2015
Accepted/In Press date: 1 December 2015
e-pub ahead of print date: January 2016
Published date: 14 January 2016
Keywords:
trajectories, gaussian processes
Organisations:
Transportation Group
Identifiers
Local EPrints ID: 386955
URI: http://eprints.soton.ac.uk/id/eprint/386955
PURE UUID: 91addb0f-89f2-4778-9ab2-0aa71d1074d1
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Date deposited: 05 Feb 2016 09:56
Last modified: 14 Mar 2024 22:40
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Author:
Willem Eerland
Author:
Simon Box
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