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Confidence region of least squares solution for single-arc observations

Confidence region of least squares solution for single-arc observations
Confidence region of least squares solution for single-arc observations
The total number of active satellites, rocket bodies, and debris larger than 10 cm is currently about 20,000. Considering all resident space objects larger than 1 cm this rises to an estimated minimum of 500,000 objects. Latest generation sensor networks will be able to detect small-size objects, producing millions of observations per day. Due to observability constraints it is likely that long gaps between observations will occur for small objects. This requires to determine the space object (SO) orbit and to accurately describe the associated uncertainty when observations are acquired on a single arc. The aim of this work is to revisit the classical least squares method taking advantage of the high order Taylor expansions enabled by differential algebra. In particular, the high order expansion of the residuals with respect to the state is used to implement an arbitrary order least squares solver, avoiding the typical approximations
of differential correction methods. In addition, the same expansions are used to accurately characterize the confidence region of the solution, going beyond the classical Gaussian distributions. The properties and performances of the proposed method are discussed using optical observations of objects in LEO, HEO, and GEO.
Maui Economic Development Board
Principe, Gennaro
45ebdecc-e35e-4b7e-a77e-53e7a0c3f63c
Armellin, Roberto
61950d5c-3dcf-45f5-b391-7e8c6ffb8e6f
Lewis, Hugh
e9048cd8-c188-49cb-8e2a-45f6b316336a
Principe, Gennaro
45ebdecc-e35e-4b7e-a77e-53e7a0c3f63c
Armellin, Roberto
61950d5c-3dcf-45f5-b391-7e8c6ffb8e6f
Lewis, Hugh
e9048cd8-c188-49cb-8e2a-45f6b316336a

Principe, Gennaro, Armellin, Roberto and Lewis, Hugh (2016) Confidence region of least squares solution for single-arc observations. In 17th Advanced Maui Optical and Space Surveillance Technologies Conference (AMOS 2016). Maui Economic Development Board..

Record type: Conference or Workshop Item (Paper)

Abstract

The total number of active satellites, rocket bodies, and debris larger than 10 cm is currently about 20,000. Considering all resident space objects larger than 1 cm this rises to an estimated minimum of 500,000 objects. Latest generation sensor networks will be able to detect small-size objects, producing millions of observations per day. Due to observability constraints it is likely that long gaps between observations will occur for small objects. This requires to determine the space object (SO) orbit and to accurately describe the associated uncertainty when observations are acquired on a single arc. The aim of this work is to revisit the classical least squares method taking advantage of the high order Taylor expansions enabled by differential algebra. In particular, the high order expansion of the residuals with respect to the state is used to implement an arbitrary order least squares solver, avoiding the typical approximations
of differential correction methods. In addition, the same expansions are used to accurately characterize the confidence region of the solution, going beyond the classical Gaussian distributions. The properties and performances of the proposed method are discussed using optical observations of objects in LEO, HEO, and GEO.

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Confidence region of least squares solution for single-arc observations.pdf - Accepted Manuscript
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Accepted/In Press date: 1 April 2016
Published date: 21 October 2016
Venue - Dates: Advanced Maui Optical and Space Surveillance Technologies Conference, Maui County, United States, 2016-09-20 - 2016-09-23
Organisations: Astronautics Group

Identifiers

Local EPrints ID: 402212
URI: http://eprints.soton.ac.uk/id/eprint/402212
PURE UUID: 9706a180-f34e-42ce-8ace-861c9852ae0d
ORCID for Hugh Lewis: ORCID iD orcid.org/0000-0002-3946-8757

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Date deposited: 01 Nov 2016 17:23
Last modified: 16 Mar 2024 02:55

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Contributors

Author: Gennaro Principe
Author: Roberto Armellin
Author: Hugh Lewis ORCID iD

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