Ballistic coefficient estimation for reentry prediction of rocket bodies in eccentric orbits based on TLE data
Ballistic coefficient estimation for reentry prediction of rocket bodies in eccentric orbits based on TLE data
Spent rocket bodies in geostationary transfer orbit (GTO) pose impact risks to the Earth’s surface when they reenter the Earth’s atmosphere. To mitigate these risks, reentry prediction of GTO rocket bodies is required. In this paper, the reentry prediction of rocket bodies in eccentric orbits based on only Two-Line Element (TLE) data and using only ballistic coefficient (BC) estimation is assessed. The TLEs are preprocessed to filter out outliers and the BC is estimated using only semimajor axis data. The BC estimation and reentry prediction accuracy are analyzed by performing predictions for 101 rocket bodies initially in GTO and comparing with the actual reentry epoch at different times before reentry. Predictions using a single and multiple BC estimates and using state estimation by orbit determination are quantitatively compared with each other for the 101 upper stages.
Gondelach, David
693aa9ad-3625-4ec6-867c-101fa9c98b00
Armellin, Roberto
61950d5c-3dcf-45f5-b391-7e8c6ffb8e6f
Lidtke, Aleksander
665c1a9b-a70d-4d73-bf48-4a6093d856b7
Gondelach, David
693aa9ad-3625-4ec6-867c-101fa9c98b00
Armellin, Roberto
61950d5c-3dcf-45f5-b391-7e8c6ffb8e6f
Lidtke, Aleksander
665c1a9b-a70d-4d73-bf48-4a6093d856b7
Gondelach, David, Armellin, Roberto and Lidtke, Aleksander
(2017)
Ballistic coefficient estimation for reentry prediction of rocket bodies in eccentric orbits based on TLE data.
Mathematical Problems in Engineering, 2017, [7309637].
(doi:10.1155/2017/7309637).
Abstract
Spent rocket bodies in geostationary transfer orbit (GTO) pose impact risks to the Earth’s surface when they reenter the Earth’s atmosphere. To mitigate these risks, reentry prediction of GTO rocket bodies is required. In this paper, the reentry prediction of rocket bodies in eccentric orbits based on only Two-Line Element (TLE) data and using only ballistic coefficient (BC) estimation is assessed. The TLEs are preprocessed to filter out outliers and the BC is estimated using only semimajor axis data. The BC estimation and reentry prediction accuracy are analyzed by performing predictions for 101 rocket bodies initially in GTO and comparing with the actual reentry epoch at different times before reentry. Predictions using a single and multiple BC estimates and using state estimation by orbit determination are quantitatively compared with each other for the 101 upper stages.
Text
Gondelach et al 2017 - Ballistic Coefficient Estimation for Reentry Prediction of Rocket Bodies in Eccentric Orbits Based on TLE Data
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Accepted/In Press date: 14 November 2017
e-pub ahead of print date: 10 December 2017
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Local EPrints ID: 417364
URI: http://eprints.soton.ac.uk/id/eprint/417364
ISSN: 1024-123X
PURE UUID: 1cb5cbd9-26bb-4d74-b7f7-7fb6584e20eb
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Date deposited: 30 Jan 2018 17:30
Last modified: 15 Mar 2024 18:06
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David Gondelach
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