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精细化复合多尺度散布熵及其在生物医学信号中的应用。

Refined Composite Multiscale Dispersion Entropy and its Application to Biomedical Signals.

出版信息

IEEE Trans Biomed Eng. 2017 Dec;64(12):2872-2879. doi: 10.1109/TBME.2017.2679136. Epub 2017 Mar 8.

DOI:10.1109/TBME.2017.2679136
PMID:28287954
Abstract

OBJECTIVE

We propose a novel complexity measure to overcome the deficiencies of the widespread and powerful multiscale entropy (MSE), including, MSE values may be undefined for short signals, and MSE is slow for real-time applications.

METHODS

We introduce multiscale dispersion entropy (DisEn-MDE) as a very fast and powerful method to quantify the complexity of signals. MDE is based on our recently developed DisEn, which has a computation cost of O(N), compared with O(N) for sample entropy used in MSE. We also propose the refined composite MDE (RCMDE) to improve the stability of MDE.

RESULTS

We evaluate MDE, RCMDE, and refined composite MSE (RCMSE) on synthetic signals and three biomedical datasets. The MDE, RCMDE, and RCMSE methods show similar results, although the MDE and RCMDE are faster, lead to more stable results, and discriminate different types of physiological signals better than MSE and RCMSE.

CONCLUSION

For noisy short and long time series, MDE and RCMDE are noticeably more stable than MSE and RCMSE, respectively. For short signals, MDE and RCMDE, unlike MSE and RCMSE, do not lead to undefined values. The proposed MDE and RCMDE are significantly faster than MSE and RCMSE, especially for long signals, and lead to larger differences between physiological conditions known to alter the complexity of the physiological recordings.

SIGNIFICANCE

MDE and RCMDE are expected to be useful for the analysis of physiological signals thanks to their ability to distinguish different types of dynamics. The MATLAB codes used in this paper are freely available at http://dx.doi.org/10.7488/ds/1982.

摘要

目的

我们提出了一种新的复杂度测度方法,以克服广泛而强大的多尺度熵(MSE)的缺陷,包括 MSE 值可能对短信号无定义,以及 MSE 对实时应用程序较慢。

方法

我们引入了多尺度散布熵(DisEn-MDE)作为一种非常快速且强大的方法来量化信号的复杂度。MDE 基于我们最近开发的 DisEn,其计算成本为 O(N),而 MSE 中使用的样本熵的计算成本为 O(N)。我们还提出了改进的复合 MDE(RCMDE)来提高 MDE 的稳定性。

结果

我们在合成信号和三个生物医学数据集上评估了 MDE、RCMDE 和改进的复合 MSE(RCMSE)。尽管 MDE 和 RCMDE 更快,导致更稳定的结果,并且比 MSE 和 RCMSE 更好地区分不同类型的生理信号,但 MDE、RCMDE 和 RCMSE 方法的结果相似。

结论

对于噪声短和长时间序列,MDE 和 RCMDE 分别比 MSE 和 RCMSE 明显更稳定。对于短信号,MDE 和 RCMDE 与 MSE 和 RCMSE 不同,不会导致无定义的值。与 MSE 和 RCMSE 相比,所提出的 MDE 和 RCMDE 速度明显更快,特别是对于长信号,并且导致已知改变生理记录复杂度的生理条件之间的差异更大。

意义

MDE 和 RCMDE 有望通过区分不同类型的动力学,在生理信号分析中得到应用。本文中使用的 MATLAB 代码可在 http://dx.doi.org/10.7488/ds/1982 免费获得。

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