The determination of Schumann resonance mode frequencies using iterative procedure of complex demodulation

The determination of Schumann resonance mode frequencies using iterative procedure of complex demodulation

The more precise determination of instantaneous peak frequency of Schumann resonance (SR) modes, especially based on relatively short signal sequences, seems to be important for detailed analysis of SR modal frequencies variations. Contrary to commonly used method of obtaining modal frequencies by L...

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Main Authors: Adriena ONDRÁŠKOVÁ, Sebastián ŠEVČÍK
Format: Article
Language:English
Published: Earth Science Institute, Slovak Academy of Sciences, Slovakia 2013-12-01
Series:Contributions to Geophysics and Geodesy
Subjects:
schumann resonance, complex demodulation, instantaneous frequency
Online Access:https://journal.geo.sav.sk/cgg/article/view/100
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spelling doaj-045eb1034ea7438d9fb7989f4cc218112020-11-25T04:11:44ZengEarth Science Institute, Slovak Academy of Sciences, SlovakiaContributions to Geophysics and Geodesy1338-05402013-12-0143430532610.2478/congeo-2013-0018100The determination of Schumann resonance mode frequencies using iterative procedure of complex demodulationAdriena ONDRÁŠKOVÁ0Sebastián ŠEVČÍK1Faculty of Mathematics, Physics and Informatics, Comenius UniversityFaculty of Mathematics, Physics and Informatics, Comenius University, Bratislava, Slovak RepublicThe more precise determination of instantaneous peak frequency of Schumann resonance (SR) modes, especially based on relatively short signal sequences, seems to be important for detailed analysis of SR modal frequencies variations. Contrary to commonly used method of obtaining modal frequencies by Lorentzian fitting of DFT spectra, the attempt was made to employ the complex demodulation method in iterated form. The results for SR signals contaminated with low-frequency noise and hum in various degree as well as the comparison with standard method are presented. Real signals of vertical electric field component picked up at the Astronomical and Geophysical Observatory of Comenius University at Modra, Slovakia, were the primary sources.https://journal.geo.sav.sk/cgg/article/view/100schumann resonance, complex demodulation, instantaneous frequency
collection DOAJ
language English
format Article
sources DOAJ
author Adriena ONDRÁŠKOVÁ
Sebastián ŠEVČÍK
spellingShingle Adriena ONDRÁŠKOVÁ
Sebastián ŠEVČÍK
The determination of Schumann resonance mode frequencies using iterative procedure of complex demodulation
Contributions to Geophysics and Geodesy
schumann resonance, complex demodulation, instantaneous frequency
author_facet Adriena ONDRÁŠKOVÁ
Sebastián ŠEVČÍK
author_sort Adriena ONDRÁŠKOVÁ
title The determination of Schumann resonance mode frequencies using iterative procedure of complex demodulation
title_short The determination of Schumann resonance mode frequencies using iterative procedure of complex demodulation
title_full The determination of Schumann resonance mode frequencies using iterative procedure of complex demodulation
title_fullStr The determination of Schumann resonance mode frequencies using iterative procedure of complex demodulation
title_full_unstemmed The determination of Schumann resonance mode frequencies using iterative procedure of complex demodulation
title_sort determination of schumann resonance mode frequencies using iterative procedure of complex demodulation
publisher Earth Science Institute, Slovak Academy of Sciences, Slovakia
series Contributions to Geophysics and Geodesy
issn 1338-0540
publishDate 2013-12-01
description The more precise determination of instantaneous peak frequency of Schumann resonance (SR) modes, especially based on relatively short signal sequences, seems to be important for detailed analysis of SR modal frequencies variations. Contrary to commonly used method of obtaining modal frequencies by Lorentzian fitting of DFT spectra, the attempt was made to employ the complex demodulation method in iterated form. The results for SR signals contaminated with low-frequency noise and hum in various degree as well as the comparison with standard method are presented. Real signals of vertical electric field component picked up at the Astronomical and Geophysical Observatory of Comenius University at Modra, Slovakia, were the primary sources.
topic schumann resonance, complex demodulation, instantaneous frequency
url https://journal.geo.sav.sk/cgg/article/view/100
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