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1 Centre for Nonlinear Dynamics, McGill University, Montreal, Quebec, Canada H3G 1Y6; 2 Institut für Mathematik, Universität Graz, A-8010 Graz, Austria; and 3 Department of Mathematics and Computer Science, Macalester College, Saint Paul, Minnesota 55105
The power spectrum of human heart rate (HR) measured
over 24 h exhibits "power-law"
1/f 
-type spectral behavior with 
1. We investigate possible nonstationarity in time of the exponent using maximum likelihood estimation, which allows relatively short data
segments to be used. Examination of 24-h HR records from ambulatory
normal and congestive heart failure (CHF) subjects indicates that the
power-law structure of HR is nonstationary. In addition, varies
with time scale and is different for normal ( 1) and CHF
( 1.5) subjects. Simulations suggest that a possible mechanism
underlying the observed power-law spectrum may be a switching between
values of near zero (white noise) and near two (Brownian motion).
This mechanism generates power-law forms quantitatively similar to CHF
subjects when the switching occurs very rapidly and similar to normal
subjects when the switching is less rapid.
power law; control; self-similarity; model; surrogate data
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