On the frequency spectrum of Amplitude Modulation Following Responses

Objective detection of Amplitude Modulation Following Responses (AMFR) is based on statistics applied after signal transformation from the time to the frequency domain by means of Discrete Fourier Transformation. In theory the frequency resolution of such transformation depends only on the analysed...

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Bibliographic Details
Published in:Scandinavian Audiology 2000, Vol.29 (3), p.191-195
Main Authors: Pethe, Joachim, Hocke, Thomas, Mühler, Roland, Specht, Hellmut von
Format: Article
Language:English
Subjects:
Adult
Auditory Perception - physiology
Female
Humans
Male
Noise - adverse effects
Time Factors
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Summary:Objective detection of Amplitude Modulation Following Responses (AMFR) is based on statistics applied after signal transformation from the time to the frequency domain by means of Discrete Fourier Transformation. In theory the frequency resolution of such transformation depends only on the analysed time window. In practise frequency resolution is also limited by the error caused by minimal difference between the clocks used for stimulus generation and Analogue/Digital-conversion. Small differences in clock frequencies may cause a spread of energy to neighbouring bins. In order to avoid this error we derived the sample clock for the A/D-conversion from the stimulator clock. By means of this technique the frequency structure of the AMFR was investigated. It is shown that if technical induced errors are excluded, the energy of the AMFR-response is limited to a very narrow frequency band. No physiologically induced disturbances of the phase locking of the AMFR to the modulation frequency could be observed. Additionally it is demonstrated that an increase of frequency resolution leads to an improved signal to noise ratio similar to the increase of averages in the time domain.
ISSN:0105-0397
1708-8186
DOI:10.1080/010503900750042761