DocumentCode
2964940
Title
Multiscale entropy to distinguish physiologic and synthetic RR time series
Author
Costa, M. ; Goldberger, A.L. ; Peng, C.-K.
Author_Institution
Beth Israel Deaconess Med. Center, Harvard Med. Sch., Boston, MA, USA
fYear
2002
fDate
22-25 Sept. 2002
Firstpage
137
Lastpage
140
Abstract
We address the challenge of distinguishing physiologic interbeat interval time series from those generated by synthetic algorithms via a newly developed multiscale entropy method. Traditional measures of time series complexity only quantify the degree of regularity on a single time scale. However, many physiologic variables, such as heart rate, fluctuate in a very complex manner and present correlations over multiple time scales. We have proposed a new method to calculate multiscale entropy from complex signals. In order to distinguish between physiologic and synthetic time series, we first applied the method to a learning set of RR time series derived from healthy subjects. We empirically established selected criteria characterizing the entropy dependence on scale factor for these datasets. We then applied this algorithm to the CinC 2002 test datasets. Using only the multiscale entropy method, we correctly classified 48 of 50 (96%) time series. In combination with Fourier spectral analysis, we correctly classified all time series.
Keywords
Fourier analysis; electrocardiography; entropy; medical signal processing; time series; Fourier spectral analysis; RR time series; cardiac interbeat time series; heart rate; multiscale entropy; multiscale entropy method; physiologic interbeat interval time series; physiologic variables; time series complexity; Biomedical engineering; Biomedical measurements; Biophysics; Diseases; Entropy; Heart rate; Heart rate variability; Spectral analysis; Testing; Time measurement;
fLanguage
English
Publisher
ieee
Conference_Titel
Computers in Cardiology, 2002
ISSN
0276-6547
Print_ISBN
0-7803-7735-4
Type
conf
DOI
10.1109/CIC.2002.1166726
Filename
1166726
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