SVD-aided EKF attitude estimation with UD factorized measurement noise covariance

Demet Cilden-Guler; Chingiz Hajiyev

doi:10.1002/asjc.1979

SVD-aided EKF attitude estimation with UD factorized measurement noise covariance

Demet Cilden-Guler^*, Chingiz Hajiyev

^*Corresponding author for this work

Istanbul Medeniyet University

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

This paper describes singular value decomposition (SVD) aided extended Kalman filter (EKF) for nanosatellite's attitude estimation. The development of the filter kinematic/dynamic model, the measurement models of the sun sensors, and the magnetometers used to generate vector measurements are presented. Vector measurements are used in SVD for satellite attitude determination purposes. In the proposed method, EKF inputs come from SVD as the linear measurements of attitude angles and their error covariance. In this step, UD factorizes the attitude angles error covariance, forming the measurements in order to obtain the appropriate inputs for the filtering stage. Results are presented and analyzed in addition to discussion of the sub-step, which is the UD factorization on the measurement covariance. The accuracy of the estimation results of the SVD-aided EKF with and without UD factorization is compared for estimation performance.

Original language	English
Pages (from-to)	1423-1432
Number of pages	10
Journal	Asian Journal of Control
Volume	21
Issue number	4
DOIs	https://doi.org/10.1002/asjc.1979
Publication status	Published - 1 Jul 2019

Bibliographical note

Publisher Copyright:
© 2018 Chinese Automatic Control Society and John Wiley & Sons Australia, Ltd

Keywords

EKF
SVD
UD factorization
attitude estimation
nanosatellite
rate gyro

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10.1002/asjc.1979

Cite this

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title = "SVD-aided EKF attitude estimation with UD factorized measurement noise covariance",

abstract = "This paper describes singular value decomposition (SVD) aided extended Kalman filter (EKF) for nanosatellite's attitude estimation. The development of the filter kinematic/dynamic model, the measurement models of the sun sensors, and the magnetometers used to generate vector measurements are presented. Vector measurements are used in SVD for satellite attitude determination purposes. In the proposed method, EKF inputs come from SVD as the linear measurements of attitude angles and their error covariance. In this step, UD factorizes the attitude angles error covariance, forming the measurements in order to obtain the appropriate inputs for the filtering stage. Results are presented and analyzed in addition to discussion of the sub-step, which is the UD factorization on the measurement covariance. The accuracy of the estimation results of the SVD-aided EKF with and without UD factorization is compared for estimation performance.",

keywords = "EKF, SVD, UD factorization, attitude estimation, nanosatellite, rate gyro",

author = "Demet Cilden-Guler and Chingiz Hajiyev",

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year = "2019",

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doi = "10.1002/asjc.1979",

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AU - Hajiyev, Chingiz

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N2 - This paper describes singular value decomposition (SVD) aided extended Kalman filter (EKF) for nanosatellite's attitude estimation. The development of the filter kinematic/dynamic model, the measurement models of the sun sensors, and the magnetometers used to generate vector measurements are presented. Vector measurements are used in SVD for satellite attitude determination purposes. In the proposed method, EKF inputs come from SVD as the linear measurements of attitude angles and their error covariance. In this step, UD factorizes the attitude angles error covariance, forming the measurements in order to obtain the appropriate inputs for the filtering stage. Results are presented and analyzed in addition to discussion of the sub-step, which is the UD factorization on the measurement covariance. The accuracy of the estimation results of the SVD-aided EKF with and without UD factorization is compared for estimation performance.

AB - This paper describes singular value decomposition (SVD) aided extended Kalman filter (EKF) for nanosatellite's attitude estimation. The development of the filter kinematic/dynamic model, the measurement models of the sun sensors, and the magnetometers used to generate vector measurements are presented. Vector measurements are used in SVD for satellite attitude determination purposes. In the proposed method, EKF inputs come from SVD as the linear measurements of attitude angles and their error covariance. In this step, UD factorizes the attitude angles error covariance, forming the measurements in order to obtain the appropriate inputs for the filtering stage. Results are presented and analyzed in addition to discussion of the sub-step, which is the UD factorization on the measurement covariance. The accuracy of the estimation results of the SVD-aided EKF with and without UD factorization is compared for estimation performance.

KW - EKF

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KW - UD factorization

KW - attitude estimation

KW - nanosatellite

KW - rate gyro

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SVD-aided EKF attitude estimation with UD factorized measurement noise covariance

Abstract

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Keywords

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