Applied Sciences (May 2021)

Low-Pass Filtering Method for Poisson Data Time Series

  • Victor Getmanov,
  • Vladislav Chinkin,
  • Roman Sidorov,
  • Alexei Gvishiani,
  • Mikhail Dobrovolsky,
  • Anatoly Soloviev,
  • Anna Dmitrieva,
  • Anna Kovylyaeva,
  • Nataliya Osetrova,
  • Igor Yashin

DOI
https://doi.org/10.3390/app11104524
Journal volume & issue
Vol. 11, no. 10
p. 4524

Abstract

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Problems of digital processing of Poisson-distributed data time series from various counters of radiation particles, photons, slow neutrons etc. are relevant for experimental physics and measuring technology. A low-pass filtering method for normalized Poisson-distributed data time series is proposed. A digital quasi-Gaussian filter is designed, with a finite impulse response and non-negative weights. The quasi-Gaussian filter synthesis is implemented using the technology of stochastic global minimization and modification of the annealing simulation algorithm. The results of testing the filtering method and the quasi-Gaussian filter on model and experimental normalized Poisson data from the URAGAN muon hodoscope, that have confirmed their effectiveness, are presented.

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