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Efficient Computation of Multiscale Entropy over Short Biomedical Time Series Based on Linear State-Space Models

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  • Luca Faes
  • Alberto Porta
  • Michal Javorka
  • Giandomenico Nollo

Abstract

The most common approach to assess the dynamical complexity of a time series across multiple temporal scales makes use of the multiscale entropy (MSE) and refined MSE (RMSE) measures. In spite of their popularity, MSE and RMSE lack an analytical framework allowing their calculation for known dynamic processes and cannot be reliably computed over short time series. To overcome these limitations, we propose a method to assess RMSE for autoregressive (AR) stochastic processes. The method makes use of linear state-space (SS) models to provide the multiscale parametric representation of an AR process observed at different time scales and exploits the SS parameters to quantify analytically the complexity of the process. The resulting linear MSE (LMSE) measure is first tested in simulations, both theoretically to relate the multiscale complexity of AR processes to their dynamical properties and over short process realizations to assess its computational reliability in comparison with RMSE. Then, it is applied to the time series of heart period, arterial pressure, and respiration measured for healthy subjects monitored in resting conditions and during physiological stress. This application to short-term cardiovascular variability documents that LMSE can describe better than RMSE the activity of physiological mechanisms producing biological oscillations at different temporal scales.

Suggested Citation

  • Luca Faes & Alberto Porta & Michal Javorka & Giandomenico Nollo, 2017. "Efficient Computation of Multiscale Entropy over Short Biomedical Time Series Based on Linear State-Space Models," Complexity, Hindawi, vol. 2017, pages 1-13, December.
    • Handle: RePEc:hin:complx:1768264
    DOI: 10.1155/2017/1768264
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    References listed on IDEAS

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    1. Stanley, H.E. & Buldyrev, S.V. & Goldberger, A.L. & Hausdorff, J.M. & Havlin, S. & Mietus, J. & Peng, C.-K. & Sciortino, F. & Simons, M., 1992. "Fractal landscapes in biological systems: Long-range correlations in DNA and interbeat heart intervals," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 191(1), pages 1-12.
    2. Amir Bashan & Ronny P. Bartsch & Jan. W. Kantelhardt & Shlomo Havlin & Plamen Ch. Ivanov, 2012. "Network physiology reveals relations between network topology and physiological function," Nature Communications, Nature, vol. 3(1), pages 1-9, January.
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    Cited by:

    1. Juan Bolea & Raquel Bailón & Esther Pueyo, 2018. "On the Standardization of Approximate Entropy: Multidimensional Approximate Entropy Index Evaluated on Short-Term HRV Time Series," Complexity, Hindawi, vol. 2018, pages 1-15, November.
    2. Zhe Chen & Yaan Li & Hongtao Liang & Jing Yu, 2019. "Improved Permutation Entropy for Measuring Complexity of Time Series under Noisy Condition," Complexity, Hindawi, vol. 2019, pages 1-12, March.

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