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Extending the hybrid methodology for orbit propagation by fitting techniques

Extending the hybrid methodology for orbit propagation by fitting techniques
Extending the hybrid methodology for orbit propagation by fitting techniques

The hybrid methodology for orbit propagation is a technique that allows improving the accuracy of any propagator for predicting the future trajectory of a satellite or space-debris object in orbit around the Earth. It is based on modeling the error of the base propagator to be enhanced. Both statistical time-series forecasting methods and machine-learning techniques can be used for that purpose. The standard procedure for developing a hybrid orbit propagator requires some initial control data, that is, a set of precise ephemerides corresponding to either real observations or accurately computed pseudo-observations, from which to model the base-propagator error dynamics. It also needs tuning the time-series forecaster from those control data. We propose an improvement to the hybrid methodology for orbit propagation, based on fitting new hybrid propagators from others previously developed for nearby initial conditions, which avoids the need for both the control data and the tuning process, and achieves comparable results.

Artificial satellite theory, Generalized additive models, Holt-Winters, Hybrid propagation methodology, Orbit propagator, Time series forecasting
0925-2312
49-60
Pérez, Iván
7a625bcb-123e-42cc-b7cf-c9c1128b5ecd
San-Martín, Montserrat
d99bc99b-d0c4-4acd-a56d-dacb362ab33b
López, Rosario
c1a34557-f092-40ba-b697-82da7ca298c5
Vergara, Eliseo P.
eff9c7c3-dadd-4d20-8c1a-077f80ae0092
Wittig, Alexander
3a140128-b118-4b8c-9856-a0d4f390b201
San-Juan, Juan Félix
eea5508b-dc4e-4cda-aaa3-765b69955df7
Pérez, Iván
7a625bcb-123e-42cc-b7cf-c9c1128b5ecd
San-Martín, Montserrat
d99bc99b-d0c4-4acd-a56d-dacb362ab33b
López, Rosario
c1a34557-f092-40ba-b697-82da7ca298c5
Vergara, Eliseo P.
eff9c7c3-dadd-4d20-8c1a-077f80ae0092
Wittig, Alexander
3a140128-b118-4b8c-9856-a0d4f390b201
San-Juan, Juan Félix
eea5508b-dc4e-4cda-aaa3-765b69955df7

Pérez, Iván, San-Martín, Montserrat, López, Rosario, Vergara, Eliseo P., Wittig, Alexander and San-Juan, Juan Félix (2019) Extending the hybrid methodology for orbit propagation by fitting techniques. Neurocomputing, 354, 49-60. (doi:10.1016/j.neucom.2018.05.138).

Record type: Article

Abstract

The hybrid methodology for orbit propagation is a technique that allows improving the accuracy of any propagator for predicting the future trajectory of a satellite or space-debris object in orbit around the Earth. It is based on modeling the error of the base propagator to be enhanced. Both statistical time-series forecasting methods and machine-learning techniques can be used for that purpose. The standard procedure for developing a hybrid orbit propagator requires some initial control data, that is, a set of precise ephemerides corresponding to either real observations or accurately computed pseudo-observations, from which to model the base-propagator error dynamics. It also needs tuning the time-series forecaster from those control data. We propose an improvement to the hybrid methodology for orbit propagation, based on fitting new hybrid propagators from others previously developed for nearby initial conditions, which avoids the need for both the control data and the tuning process, and achieves comparable results.

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More information

Accepted/In Press date: 26 May 2018
e-pub ahead of print date: 18 April 2019
Published date: 18 August 2019
Keywords: Artificial satellite theory, Generalized additive models, Holt-Winters, Hybrid propagation methodology, Orbit propagator, Time series forecasting

Identifiers

Local EPrints ID: 432804
URI: http://eprints.soton.ac.uk/id/eprint/432804
DOI: doi:10.1016/j.neucom.2018.05.138
ISSN: 0925-2312
PURE UUID: 3792fcee-6a11-4cfc-8c28-0f523857e05e
ORCID for Alexander Wittig: ORCID iD orcid.org/0000-0002-4594-0368

Catalogue record

Date deposited: 26 Jul 2019 16:30
Last modified: 18 Mar 2024 03:41

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Contributors

Author: Iván Pérez
Author: Montserrat San-Martín
Author: Rosario López
Author: Eliseo P. Vergara
Author: Alexander Wittig ORCID iD
Author: Juan Félix San-Juan

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