2018
DOI: 10.17587/mau.19.451-457
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Obtaining the Amplitude-Frequency Response of the Retina and Formalization of its Parameters for Using in Diagnostic Systems

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Cited by 4 publications
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“…by dividing the amplitudes of the harmonics of the spectra Z(f) by the corresponding amplitudes of the harmonics of the input signals, by [5], eliminates this undesirable effect [6,7]. It should be noted that in the analyzed spectra the permissible upper limit of the harmonic frequencies under consideration narrows to 120-150 Hz due to the influence of the spectrum of the noise component of the FERG on the frequency response in the vicinity of the critical frequency 200 Hz.…”
Section: Spectrum Ferg (Z(f)) and Retinal Afcmentioning
confidence: 99%
“…by dividing the amplitudes of the harmonics of the spectra Z(f) by the corresponding amplitudes of the harmonics of the input signals, by [5], eliminates this undesirable effect [6,7]. It should be noted that in the analyzed spectra the permissible upper limit of the harmonic frequencies under consideration narrows to 120-150 Hz due to the influence of the spectrum of the noise component of the FERG on the frequency response in the vicinity of the critical frequency 200 Hz.…”
Section: Spectrum Ferg (Z(f)) and Retinal Afcmentioning
confidence: 99%