Analysis of biomedical signals by flicker-noise spectroscopy: Identification of photosensitive epilepsy using magnetoencephalograms

Abstract This work presents the results of parameterization of magnetoencephalogram signals from healthy subjects and a patient with photosensitive epilepsy. Diagnostic criteria were established during the extraction of resonant and high-frequency (chaotic) components of the initial time signals. It is shown that an increase in the intensity of the chaotic components of the studied signals in the high-frequency region leads to a violation of cross-correlation relationships and a decrease in the level of manifestation of frequency-phase synchronization. The discovered signs of photosensitive epilepsy will contribute to the development of new methods for the diagnosis and medical control of this disease based on Flicker-Noise Spectroscopy.

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The use of Flicker-Noise Spectroscopy in the diagnosis of photosensitive epilepsy based on the analysis of human magnetoencephalograms

2020 International Conference on Information Technology and Nanotechnology (ITNT) ◽

10.1109/itnt49337.2020.9253221 ◽

2020 ◽

Author(s):

Sergey Demin ◽

Oleg Panischev ◽

Valentin Yunusov ◽

Sergey Timashev

Keyword(s):

Flicker Noise ◽

Noise Spectroscopy ◽

Photosensitive Epilepsy

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Identification of earthquake precursors in the hydrogeochemical and geoacoustic data for the Kamchatka peninsula by flicker-noise spectroscopy

Natural Hazards and Earth System Science ◽

10.5194/nhess-11-541-2011 ◽

2011 ◽

Vol 11 (2) ◽

pp. 541-548 ◽

Cited By ~ 8

Author(s):

G. V. Ryabinin ◽

Yu. S. Polyakov ◽

V. A. Gavrilov ◽

S. F. Timashev

Keyword(s):

Statistical Physics ◽

Systems Approach ◽

Flicker Noise ◽

Large Earthquake ◽

Kamchatka Peninsula ◽

Time Frame ◽

Underground Water ◽

Ion Concentration ◽

Seismic Zone ◽

Noise Spectroscopy

Abstract. A phenomenological systems approach for identifying potential precursors in multiple signals of different types for the same local seismically active region is proposed based on the assumption that a large earthquake may be preceded by a system reconfiguration (preparation) on different time and space scales. A nonstationarity factor introduced within the framework of flicker-noise spectroscopy, a statistical physics approach to the analysis of time series, is used as the dimensionless criterion for detecting qualitative (precursory) changes within relatively short time intervals in arbitrary signals. Nonstationarity factors for chlorine-ion concentration variations in the underground water of two boreholes on the Kamchatka peninsula and geacoustic emissions in a deep borehole within the same seismic zone are studied together in the time frame around a large earthquake on 8 October 2001. It is shown that nonstationarity factor spikes (potential precursors) take place in the interval from 70 to 50 days before the earthquake for the hydrogeochemical data and at 29 and 6 days in advance for the geoacoustic data.

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