Robust Estimation of the Scaling Exponent in Detrended Fluctuation Analysis of Beat Rate Variability

2018 Computing in Cardiology Conference (CinC) Pub Date : 2018-12-30 DOI:10.22489/CinC.2018.219

Matti Molkkari, Esa Räsänen

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引用次数: 6

Abstract

Detrended fluctuation analysis is a popular method for studying fractal scaling properties in time series. The method has been successfully employed in studying heart rate variability and discovering distinct scaling properties in different pathological conditions. Traditionally the analysis has been performed by extracting two scaling exponents from linear fits, for short- and long-range correlations respectively. The extent of these ranges is subjective and the linear two-range model potentially disregards additional information present in the data. Here we present a method based on the Kalman smoother for obtaining a whole spectrum of scaling exponents as a function of the scale. Additionally, we present an optimization scheme to obtain data-adaptive segmentation of the fluctuation function into approximately linear regimes. The methods are parameter-free and resistant to statistical noise in the fluctutation function. We employ the methods in the analysis of the heart rate variability of patients with different heart conditions. The methods enhance the classification of these conditions, revealing more complex structure in the scaling exponents beyond the two-range model.

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拍率变异性去趋势波动分析中尺度指数的鲁棒估计

去趋势波动分析是研究时间序列分形标度特性的常用方法。该方法已成功用于研究心率变异性，并在不同病理条件下发现了不同的标度特性。传统的分析是通过从线性拟合中提取两个缩放指数来执行的，分别用于短期和长期相关性。这些范围的范围是主观的，线性双范围模型可能忽略了数据中存在的附加信息。在这里，我们提出了一种基于卡尔曼平滑的方法来获得作为尺度函数的整个尺度指数谱。此外，我们提出了一种优化方案，使波动函数的数据自适应分割成近似线性区域。该方法是无参数的，并且可以抵抗波动函数中的统计噪声。我们将这些方法用于分析不同心脏状况患者的心率变异性。该方法增强了对这些条件的分类，揭示了超出双量程模型的尺度指数中更复杂的结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 Computing in Cardiology Conference (CinC)

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