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Dynamic ranges of discrete stroboscopic methods

Dynamic ranges of discrete stroboscopic methods The dynamic range of discrete stroboscopic methods of signal transformation is investigated using statistical modeling. The ratio of the amplitude A* to the mean square deviation of noise at the transducer output is considered as the dynamic range. A* is determined as the maximum amplitude of the input signal at which the normalized distortion of the transformation result doesn’t exceed a certain predetermined value. A harmonic mono-oscillation, namely the UWB radar signal model, is used as the signal being transformed. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Automatic Control and Computer Sciences Springer Journals

Dynamic ranges of discrete stroboscopic methods

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Publisher
Springer Journals
Copyright
Copyright © 2011 by Allerton Press, Inc.
Subject
Computer Science; Control Structures and Microprogramming
ISSN
0146-4116
eISSN
1558-108X
DOI
10.3103/S0146411611050063
Publisher site
See Article on Publisher Site

Abstract

The dynamic range of discrete stroboscopic methods of signal transformation is investigated using statistical modeling. The ratio of the amplitude A* to the mean square deviation of noise at the transducer output is considered as the dynamic range. A* is determined as the maximum amplitude of the input signal at which the normalized distortion of the transformation result doesn’t exceed a certain predetermined value. A harmonic mono-oscillation, namely the UWB radar signal model, is used as the signal being transformed.

Journal

Automatic Control and Computer SciencesSpringer Journals

Published: Nov 9, 2011

References

  • Diskretnye stroboskopicheskie preobrazovateli
    Khermanis, E.Kh.; Karklin’sh, V.G.
  • Automatic Control and Computer Sciences
    Kruminsh, K.; Karklinsh, V.G.
  • Mathematische Statistik
    Waerden, B.L.
  • Automatic Control and Computer Sciences
    Kruminsh, K.; Karklinsh, V.; Plocinsh, V.