. . "RIV/00216305:26110/13:PU106880" . . . "Experimental analysis of acoustic emission response is based on the processing of a stochastic process realization. The results of this processing procedure are statistical characteristics, such as, probability density, distribution function, root-mean-square deviation, correlation function and spectral density. Our acoustic emission studies are focused mainly on the acoustic emission impulse counting rate and spectral density. The present paper deals with a digital method of determining the spectral density." . . "1"^^ . "Calculating Spectral Density to Determine Acoustic Emission Response"@en . "1"^^ . "Akademick\u00E9 nakladatelstv\u00ED CERM" . . . . "64106" . . "Manychov\u00E1, Monika" . . . "Brno" . "[AEEF94209E75]" . "26110" . "Calculating Spectral Density to Determine Acoustic Emission Response" . . "Brno" . "5"^^ . "978-80-7204-864-9" . "Experimental analysis of acoustic emission response is based on the processing of a stochastic process realization. The results of this processing procedure are statistical characteristics, such as, probability density, distribution function, root-mean-square deviation, correlation function and spectral density. Our acoustic emission studies are focused mainly on the acoustic emission impulse counting rate and spectral density. The present paper deals with a digital method of determining the spectral density."@en . . . "Calculating Spectral Density to Determine Acoustic Emission Response" . "Acoustic emission, spectral density, Fast Fourier Transform"@en . . . "RIV/00216305:26110/13:PU106880!RIV14-GA0-26110___" . "2013-12-04+01:00"^^ . "Calculating Spectral Density to Determine Acoustic Emission Response"@en . . "11th Workshop NDT 2013 Non-Destructive Testing in Engineering Practice" . "P(GAP104/10/1430)" .