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Numerical algorithm as an observer for spacecraft attitude determination

Numerical algorithm as an observer for spacecraft attitude determination
Numerical algorithm as an observer for spacecraft attitude determination
This paper studies a nonlinear discrete-time state observer design problem for rigid spacecraft, particularly for spacecraft attitude estimation. The observer is a partial state observer, and it is constructed based on a numerical algorithm that preserves the orthogonality of a matrix function. Orthogonality preservation is important as the attitude matrix to be estimated is orthogonal, whereas in general orthogonality is destroyed under sampling. We prove that the proposed construction yields a semiglobal practical asymptotic observer. We also show that the separation principle holds for our problem, and hence stabilization using output feedback is possible. Two examples are provided to illustrate the usefulness of our results in a sampled-data implementation
1-4244-0171-2
1568-1573
IEEE
Laila, Dina Shona
41aa5cf9-3ec2-4fdf-970d-a0a349bfd90c
Lovera, Marco
4387af7a-7b24-4ad5-84c2-69d10c263794
Astolfi, Alessandro
3045f9a9-e8f3-4f19-9f5d-08364de75cdb
Laila, Dina Shona
41aa5cf9-3ec2-4fdf-970d-a0a349bfd90c
Lovera, Marco
4387af7a-7b24-4ad5-84c2-69d10c263794
Astolfi, Alessandro
3045f9a9-e8f3-4f19-9f5d-08364de75cdb

Laila, Dina Shona, Lovera, Marco and Astolfi, Alessandro (2006) Numerical algorithm as an observer for spacecraft attitude determination. In 45th IEEE Conference on Decision and Control. IEEE. pp. 1568-1573 . (doi:10.1109/CDC.2006.377398).

Record type: Conference or Workshop Item (Paper)

Abstract

This paper studies a nonlinear discrete-time state observer design problem for rigid spacecraft, particularly for spacecraft attitude estimation. The observer is a partial state observer, and it is constructed based on a numerical algorithm that preserves the orthogonality of a matrix function. Orthogonality preservation is important as the attitude matrix to be estimated is orthogonal, whereas in general orthogonality is destroyed under sampling. We prove that the proposed construction yields a semiglobal practical asymptotic observer. We also show that the separation principle holds for our problem, and hence stabilization using output feedback is possible. Two examples are provided to illustrate the usefulness of our results in a sampled-data implementation

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Published date: June 2006
Venue - Dates: 2006 American Control Conference, Minneapolis, United States, 2006-06-14 - 2006-06-16
Organisations: Mechatronics

Identifiers

Local EPrints ID: 353744
URI: http://eprints.soton.ac.uk/id/eprint/353744
DOI: doi:10.1109/CDC.2006.377398
ISBN: 1-4244-0171-2
PURE UUID: 0758dc36-37c3-499e-b90a-21460b3ada12

Catalogue record

Date deposited: 17 Jun 2013 13:56
Last modified: 14 Mar 2024 14:09

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Contributors

Author: Dina Shona Laila
Author: Marco Lovera
Author: Alessandro Astolfi

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