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Nonlinear Methods Most Applied to Heart-Rate Time Series: A Review

Teresa Henriques, Maria Ribeiro, Andréia Teixeira, Luísa Castro, Luís Antunes, Cristina Santos

2020Entropy156 citationsDOIOpen Access PDF

Abstract

The heart-rate dynamics are one of the most analyzed physiological interactions. Many mathematical methods were proposed to evaluate heart-rate variability. These methods have been successfully applied in research to expand knowledge concerning the cardiovascular dynamics in healthy as well as in pathological conditions. Notwithstanding, they are still far from clinical practice. In this paper, we aim to review the nonlinear methods most used to assess heart-rate dynamics. We focused on methods based on concepts of chaos, fractality, and complexity: Poincaré plot, recurrence plot analysis, fractal dimension (and the correlation dimension), detrended fluctuation analysis, Hurst exponent, Lyapunov exponent entropies (Shannon, conditional, approximate, sample entropy, and multiscale entropy), and symbolic dynamics. We present the description of the methods along with their most notable applications.

Topics & Concepts

Detrended fluctuation analysisCorrelation dimensionHurst exponentRecurrence plotLyapunov exponentSample entropyFractal dimensionRecurrence quantification analysisNonlinear systemStatistical physicsHeart rate variabilityEntropy (arrow of time)MathematicsFractalChaos theorySymbolic dynamicsApproximate entropyComputer scienceTime seriesHeart rateStatisticsArtificial intelligenceChaoticMathematical analysisBlood pressureScalingPhysicsMedicineQuantum mechanicsRadiologyPure mathematicsGeometryHeart Rate Variability and Autonomic ControlComplex Systems and Time Series AnalysisChaos control and synchronization