Memory beyond memory in heart beating: an efficient way to detect pathological conditions
arXiv:cond-mat/0107597 · doi:10.1103/PhysRevE.65.041926
Abstract
We study the long-range correlations of heartbeat fluctuations with the method of diffusion entropy. We show that this method of analysis yields a scaling parameter $δ$ that apparently conflicts with the direct evaluation of the distribution of times of sojourn in states with a given heartbeat frequency. The strength of the memory responsible for this discrepancy is given by a parameter $ε^{2}$, which is derived from real data. The distribution of patients in the ($δ$, $ε^{2}$)-plane yields a neat separation of the healthy from the congestive heart failure subjects.
submitted to Physical Review Letters, 5 figures