The space debris environment: future evolution
The space debris environment: future evolution
Space debris represents a significant risk to satellite operations, due to the possibility of damaging or catastrophic collisions. Consequently, many satellite operators screen the orbiting population for close approaches with their on-orbit assets and a public conjunction assessment service, Satellite Orbital Conjunction Reports Assessing Threatening Encounters in Space (SOCRATES), generates close approach predictions on a daily basis for all satellite payloads in the catalogue. These screening capabilities are used to inform operational decisions relating to risk mitigation but it is anticipated that the demands placed on these services will increase as debris becomes more prolific. This hypothesis is explored in a preliminary analysis of conjunction data for the years 2004 to 2009 and a new ‘Business As Usual’ study using the Debris Analysis and Monitoring Architecture for the Geosynchronous Environment (DAMAGE) model. The results suggest a 50% increase in the number of close approaches reported by SOCRATES (or its equivalent) within the next ten years. By 2059, daily conjunction reports could contain over 50,000 close approaches below 5 km, affecting the demands placed on tracking facilities and satellite resources.
241-247
Lewis, Hugh G.
e9048cd8-c188-49cb-8e2a-45f6b316336a
Swinerd, Graham
4aa174ec-d08c-4972-9986-966e17e072a0
Newland, Rebecca J.
af539f77-a9c9-4c3d-91b6-cd48c6c32219
April 2011
Lewis, Hugh G.
e9048cd8-c188-49cb-8e2a-45f6b316336a
Swinerd, Graham
4aa174ec-d08c-4972-9986-966e17e072a0
Newland, Rebecca J.
af539f77-a9c9-4c3d-91b6-cd48c6c32219
Lewis, Hugh G., Swinerd, Graham and Newland, Rebecca J.
(2011)
The space debris environment: future evolution.
Aeronautical Journal, 115 (1166), .
(doi:10.1017/S0001924000005698).
Abstract
Space debris represents a significant risk to satellite operations, due to the possibility of damaging or catastrophic collisions. Consequently, many satellite operators screen the orbiting population for close approaches with their on-orbit assets and a public conjunction assessment service, Satellite Orbital Conjunction Reports Assessing Threatening Encounters in Space (SOCRATES), generates close approach predictions on a daily basis for all satellite payloads in the catalogue. These screening capabilities are used to inform operational decisions relating to risk mitigation but it is anticipated that the demands placed on these services will increase as debris becomes more prolific. This hypothesis is explored in a preliminary analysis of conjunction data for the years 2004 to 2009 and a new ‘Business As Usual’ study using the Debris Analysis and Monitoring Architecture for the Geosynchronous Environment (DAMAGE) model. The results suggest a 50% increase in the number of close approaches reported by SOCRATES (or its equivalent) within the next ten years. By 2059, daily conjunction reports could contain over 50,000 close approaches below 5 km, affecting the demands placed on tracking facilities and satellite resources.
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Accepted/In Press date: 9 September 2010
Published date: April 2011
Organisations:
Astronautics Group
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Local EPrints ID: 185163
URI: http://eprints.soton.ac.uk/id/eprint/185163
ISSN: 0001-9240
PURE UUID: 5a8d2f2f-4f93-4e58-8137-a74b2c7a031b
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Date deposited: 09 May 2011 15:20
Last modified: 15 Mar 2024 02:54
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Author:
Rebecca J. Newland
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