Ground-based observations for predicting seismic events and techniques for their processing and analysis together with the data of ionosphere monitoring from space
|1Mostovoy, S, 1Starostenko, V, 1Kharitonov, IO |
1S.I. Subbotin Institute of Geophysics of the National Academy of Sciences of Ukraine, Kyiv, Ukraine
|Kosm. nauka tehnol. 1998, 4 ;(2):93–101|
|Section: Space and Atmospheric Physics|
|Publication Language: Russian|
Procedure of processing groud-based and space measurements of geophysical fields for the purpose of predicting earthquakes is considered. Much attention is gives to the processing and analysis of those fields forerunners of seismic events were detected earlier. A mathematical model of earthquake prediction is suggested. Detection of forerunners is regarded as a problem of detecting a forerunner signal on the background of a multidimensional stochastic process which is represented by measurements of geophysical fields in the ionosphere and on the Earth's surface.
24. Gokhberg M. B., Gufeld I. L., Rozhnoy A. A. et al. Study of seismic influence on the ionosphere by super long-wave probing of the Earth-ionosphere waveguide. Phys. Earth and Planet. Inter., 57, 64—67 (1989).
25. Korepanov V., Kuznetsova V., Maksymchuk V. Tectonomagnetic Investigations as ground support of space earthquake prediction experiment. Electromagnetic phenomena releted to earthquake prediction, 489— 491 (Terrapub, Tokyo, 1994).
27. Mostovoy S., Mostovoy V. Seismic signal analysis and prediction the seismic events. Consel de l’Europe: Journees Luxembour-geoises de Jeodynnamique (79th and 80th session), 40—45 (Imprimerie Joseph Beffore, Luxembourg, 1996).
30. Warwick J. W. Radioastronomical techniques for the study of planetery atmospheres. Radioastronomical and satellite studies of the atmosphere, Ed. J. Aarons, P. 400 (North Holland, Amsterdam, 1963).