Methods for the Evaluation of the Stochastic Properties of the Ionosphere for Earthquake Prediction—Random Matrix Theory

Methods for the Evaluation of the Stochastic Properties of the Ionosphere for Earthquake Prediction—Random Matrix Theory

Seismo-ionospheric coupling is a field of great interest and is currently subject to rigorous study; using both ground and satellite data and many phenomenological features, the ionospheric precursors of earthquakes were identified. In this work, we present methods to study the stochastic properties...

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Bibliographic Details
Published in:Atmosphere Vol. 10; no. 7; p. 413
Main Authors: Břizová, Leontýna, Kříž, Jan, Studnička, Filip, Šlégr, Jan
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-07-2019
Subjects:
Conflicts of interest
Earthquake prediction
Earthquakes
Eigenvalues
Identification methods
Ionosphere
ionospheric precursors
Lower ionosphere
Matrix theory
Precursors
Propagation
Properties
Random variables
Receivers & amplifiers
Satellite data
Securities markets
Seismic activity
stochastic properties
Stochasticity
Theory
Very Low Frequencies
Czech Republic
Singapore
United States > US
Spain
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Description
Summary:Seismo-ionospheric coupling is a field of great interest and is currently subject to rigorous study; using both ground and satellite data and many phenomenological features, the ionospheric precursors of earthquakes were identified. In this work, we present methods to study the stochastic properties of the lower ionosphere, derived from the data obtained with very low frequency (VLF) receivers at frequencies in the range of 19.6 to 37.5 kHz. Two main approaches are described: auto-correlation and random matrix theory treatments of amplitude time series data. It is shown that before shallow earthquakes with magnitudes greater than four, there are measurable changes that can be used in earthquake prediction. Although the exact form of the causal chain that leads to these changes are currently subject to diligent study, we believe that the investigations described herein are worth adding to the repertoire of ionospheric precursors.
ISSN:2073-4433
2073-4433
DOI:10.3390/atmos10070413