Nonlinear nature of spectral components in heart rate variability

Li Cheng; Tang Da-Kan; Fang Yong; Sun Jin-Tao; Ding Guang-Hong; Poon Chi-Sang; Wu Guo-Qiang

doi:10.7498/aps.58.1348

Abstract
We proposed a new hybrid method combining the band-phase-randomized surrogate data with noise titration to discern the influence of spectral components on heartbeat chaos. The results demonstrate that the chaotic strength of phase-randomized surrogate data in the high frequency band (HF) of heart rate variability (HRV) is reduced significantly, which indicates that the frequency components of spectral analysis involve intrinsic chaotic information. The hybrid method proposed in this study is effective to distinguish the different contributions of spectral components to chaotic strength of the test data. This method is applicable not only to HRV but also to other deterministic signals.

Keywords:
band-phase-randomized surrogate data /

chaos /

titration method /

heart rate variability
Authors and contacts
Li Cheng²,

Tang Da-Kan³,

Fang Yong²,

Sun Jin-Tao²,

Ding Guang-Hong²,

Poon Chi-Sang¹,

Wu Guo-Qiang²

(1)Harvard-MIT Division of Health Sciences & Technology,MIT,Cambridge,MA 02139 USA; (2)复旦大学力学与工程科学系，上海 200433; (3)复旦大学通信科学与工程系，上海 200433
References

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Vol. 58, Issue 2 - 2009-01-20

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