Recent evidence suggests that physiological signals under healthy conditions may have a fractal temporal structure. We investigate the possibility that time series generated by certain physiological control systems may be members of a special class of complex processes, termed multifractal, which require a large number of exponents to characterize their scaling properties. We report on evidence for multifractality in a biological dynamical system --- the healthy human heartbeat. Further, we show that the multifractal character and nonlinear properties of the healthy heart rate are encoded in the Fourier phases. We uncover a loss of multifractality for a life-threatening condition, congestive heart failure.
@article{arxiv.cond-mat/9905329,
title = {Multifractality in Human Heartbeat Dynamics},
author = {Plamen Ch. Ivanov and Luís A. Nunes Amaral and Ary L. Goldberger and Shlomo Havlin and Michael G. Rosenblum and Zbigniew Struzik and H. Eugene Stanley},
journal= {arXiv preprint arXiv:cond-mat/9905329},
year = {2016}
}
Comments
19 pages, latex2e using rotate and epsf, with 5 ps figures; to appear in Nature, 3 June, 1999