Does sample rate introduce an artifact in spectral analysis of continuous processes?

Does sample rate introduce an artifact in spectral analysis of continuous processes?

Spectral analysis is a widely used method to estimate 1/f(α) noise in behavioral and physiological data series. The aim of this paper is to achieve a more solid appreciation for the effects of periodic sampling on the outcomes of spectral analysis. It is shown that spectral analysis is biased by the...

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Bibliographic Details
Published in:Frontiers in physiology Vol. 3; p. 495
Main Authors: Wijnants, Maarten L, Cox, R F A, Hasselman, F, Bosman, A M T, Van Orden, Guy
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 01-01-2013
Subjects:
1/f noise
periodic sampling
Physiology
sample rate
scaling estimates
spectral analysis
spectral analysis
1/f noise
periodic sampling
1/f scaling
sample rate
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Summary:Spectral analysis is a widely used method to estimate 1/f(α) noise in behavioral and physiological data series. The aim of this paper is to achieve a more solid appreciation for the effects of periodic sampling on the outcomes of spectral analysis. It is shown that spectral analysis is biased by the choice of sample rate because denser sampling comes with lower amplitude fluctuations at the highest frequencies. Here we introduce an analytical strategy that compensates for this effect by focusing on a fixed amount, rather than a fixed percentage of the lowest frequencies in a power spectrum. Using this strategy, estimates of the degree of 1/f(α) noise become robust against sample rate conversion and more sensitive overall. Altogether, the present contribution may shed new light on known discrepancies in the psychological literature on 1/f(α) noise, and may provide a means to achieve a more solid framework for 1/f(α) noise in continuous processes.
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This article was submitted to Frontiers in Fractal Physiology, a specialty of Frontiers in Physiology.
Edited by: John G. Holden, University of Cincinnati, USA
Reviewed by: Christopher Kello, University of California, USA; John G. Holden, University of Cincinnati, USA
ISSN:1664-042X
1664-042X
DOI:10.3389/fphys.2012.00495