Quaternion-Based Aircraft Attitude Estimation

<p> Aircraft attitude estimation requires fusing several sensors in order to recover both high and low frequency information in an observable manner. This thesis explores the fusion of gyroscope integration, gravity vector estimation, and magnetic field vector estimation using a complementary...

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Main Author: Filarsky, Brian Michael
Language:EN
Published: University of California, San Diego 2016
Subjects:
Online Access:http://pqdtopen.proquest.com/#viewpdf?dispub=10133153
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spelling ndltd-PROQUEST-oai-pqdtoai.proquest.com-101331532016-07-14T16:00:37Z Quaternion-Based Aircraft Attitude Estimation Filarsky, Brian Michael Aerospace engineering <p> Aircraft attitude estimation requires fusing several sensors in order to recover both high and low frequency information in an observable manner. This thesis explores the fusion of gyroscope integration, gravity vector estimation, and magnetic field vector estimation using a complementary filter and an extended Kalman filter (EKF), both of which use a unit quaternion to represent the attitude portion of the state. </p><p> First, a set of models, which contain bias, scale factor errors, alignment errors, and Gaussian white noise, is introduced to govern the available sensors. The gyroscope bias is modeled as a random walk. A calibration routine is then established to minimize scale factor and bias errors. After some definitions and derivations for quaternion algebra are established, the attitude solution is then estimated using the complementary filter. Then the EKF is introduced and used to estimate both the quaternion state and gyroscope bias. </p><p> The thesis is concluded with a Monte Carlo run to compare the complementary filter with the EKF. Due in large part to the estimation of gyroscope bias in the EKF, this filter is shown to give a significantly more accurate state estimate. The robustness is also evaluated, with both filters initialized with the incorrect initial quaternion and gyroscope bias estimate. The EKF is shown to converge relatively quickly, while the complementary filter does not reliably converge due to the lack of gyroscope bias estimation.</p> University of California, San Diego 2016-07-09 00:00:00.0 thesis http://pqdtopen.proquest.com/#viewpdf?dispub=10133153 EN
collection NDLTD
language EN
sources NDLTD
topic Aerospace engineering
spellingShingle Aerospace engineering
Filarsky, Brian Michael
Quaternion-Based Aircraft Attitude Estimation
description <p> Aircraft attitude estimation requires fusing several sensors in order to recover both high and low frequency information in an observable manner. This thesis explores the fusion of gyroscope integration, gravity vector estimation, and magnetic field vector estimation using a complementary filter and an extended Kalman filter (EKF), both of which use a unit quaternion to represent the attitude portion of the state. </p><p> First, a set of models, which contain bias, scale factor errors, alignment errors, and Gaussian white noise, is introduced to govern the available sensors. The gyroscope bias is modeled as a random walk. A calibration routine is then established to minimize scale factor and bias errors. After some definitions and derivations for quaternion algebra are established, the attitude solution is then estimated using the complementary filter. Then the EKF is introduced and used to estimate both the quaternion state and gyroscope bias. </p><p> The thesis is concluded with a Monte Carlo run to compare the complementary filter with the EKF. Due in large part to the estimation of gyroscope bias in the EKF, this filter is shown to give a significantly more accurate state estimate. The robustness is also evaluated, with both filters initialized with the incorrect initial quaternion and gyroscope bias estimate. The EKF is shown to converge relatively quickly, while the complementary filter does not reliably converge due to the lack of gyroscope bias estimation.</p>
author Filarsky, Brian Michael
author_facet Filarsky, Brian Michael
author_sort Filarsky, Brian Michael
title Quaternion-Based Aircraft Attitude Estimation
title_short Quaternion-Based Aircraft Attitude Estimation
title_full Quaternion-Based Aircraft Attitude Estimation
title_fullStr Quaternion-Based Aircraft Attitude Estimation
title_full_unstemmed Quaternion-Based Aircraft Attitude Estimation
title_sort quaternion-based aircraft attitude estimation
publisher University of California, San Diego
publishDate 2016
url http://pqdtopen.proquest.com/#viewpdf?dispub=10133153
work_keys_str_mv AT filarskybrianmichael quaternionbasedaircraftattitudeestimation
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