Dual-Tree Sparse Decomposition of DWT Filters for ECG Signal Compression and HRV Analysis

Augmented Human Research Pub Date : 2021-01-12 DOI:10.1007/s41133-020-00041-z

Ranjeet Kumar, A. R. Verma, Bhumika Gupta, Sandeep Kumar

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引用次数: 5

Abstract

In this paper, a one-dimensional ECG signal is decomposed as symmetry tree structure at each level using discrete wavelet transforms which outcomes from a larger quantity of insignificant coefficients. They are measured as zero amplitude value and represented as sparse datasets that improve the compression rate, and Huffman coding helps to represent the signal with low bit rate data. These results compressed data codes of large ECG time-series datasets of the signal. Here, different wavelet filters are evaluated for compression based on sparse data from wavelet decomposition. The performance of an algorithm in terms of compression is 43.52% and 42.8% with a 99.9% correlation between original and recovered signals from compressed ECG data for the MIT-BIH arrhythmia and compression dataset, respectively. Further, heart rate variability (HRV) analysis with correlation of R-R intervals in between original and reconstructed ECG signals validates the reconstruction as well as sensitivity of compression technique toward data accuracy.

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双树稀疏分解DWT滤波器在心电信号压缩和HRV分析中的应用

本文利用离散小波变换将一维心电信号分解为每一层的对称树结构，得到大量不显著系数。它们被测量为零幅度值，并表示为提高压缩率的稀疏数据集，霍夫曼编码有助于表示具有低比特率数据的信号。这些结果压缩了大型心电信号时间序列数据集的数据编码。在这里，基于小波分解的稀疏数据，评估不同的小波滤波器的压缩效果。该算法在压缩方面的性能分别为43.52%和42.8%，其中MIT-BIH心律失常和压缩数据集的原始信号和恢复信号之间的相关性分别为99.9%。此外，利用原始和重构心电信号之间R-R区间的相关性进行心率变异性(HRV)分析，验证了重构以及压缩技术对数据精度的敏感性。

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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Augmented Human Research

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