A kalman filter-based algorithm for measuring the parameters of moving objects

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Date
2015
Journal Title
Journal ISSN
Volume Title
Publisher
Slovak Academy of Sciences - Inst. Measurement Science
De Gruyter Open Lt
Technická Univerzita v Liberci
Technical university of Liberec, Czech Republic
Abstract
One of the most complex problems in measuring equipment is related to the provision of the required dynamic accuracy of measuring systems determining the parameters of moving objects. The present paper views an algorithm for improving the dynamic accuracy of such measuring systems. It is based on the Kalman method. The algorithm aims to eliminate the influence of a number of interference sources, each of which is of secondary significance. However, their total effect can cause considerable distortion of the measurement signal. The algorithm model is designed for gyro-free measuring systems. It is based on one of the most widely used elements in the dynamic systems, namely the physical pendulum, due to which measuring systems of high dynamic accuracy and low cost can be developed. The presented experimental results confirm the effectiveness of the proposed algorithm with respect to the dynamic accuracy of measuring systems of this type.
Description
Subject(s)
kalman filter, dynamic error, gyro-free measuring system, roll, pitch, heel, trim
Citation
ISSN
1335-8871
ISBN
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