Metrology and Measurement Systems (Dec 2016)

An Algorithm for Improving the Accuracy of Systems Measuring Parameters of Moving Objects

  • Dichev Dimitar,
  • Koev Hristofor,
  • Bakalova Totka,
  • Louda Petr

DOI
https://doi.org/10.1515/mms-2016-0041
Journal volume & issue
Vol. 23, no. 4
pp. 555 – 565

Abstract

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The paper considers an algorithm for increasing the accuracy of measuring systems operating on moving objects. The algorithm is based on the Kalman filter. It aims to provide a high measurement accuracy for the whole range of change of the measured quantity and the interference effects, as well as to eliminate the influence of a number of interference sources, each of which is of secondary importance but their total impact can cause a considerable distortion of the measuring signal. The algorithm is intended for gyro-free measuring systems. It is based on a model of the moving object dynamics. The mathematical model is developed in such a way that it enables to automatically adjust the algorithm parameters depending on the current state of measurement conditions. This makes possible to develop low-cost measuring systems with a high dynamic accuracy. The presented experimental results prove effectiveness of the proposed algorithm in terms of the dynamic accuracy of measuring systems of that type.

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