Ensemble Empirical Mode Decomposition for Automated Denoising of Pulse Signals

Zhiyuan Li, Mingju Yao
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Abstract

: Pulse signals are often corrupted by noise, compromising signal integrity for downstream analysis. This paper presents an automated denoising technique for pulse waveforms using ensemble empirical mode decomposition (EEMD). The EEMD algorithm decomposes the signal into intrinsic mode functions (IMFs). Statistical metrics of IMF energy and entropy identify noise components for targeted removal via nonlinear filtering. Experiments on simulated pulse echoes demonstrated the approach of accurately eliminated noise regions. Compared to wavelet decomposition and Monte Carlo methods, the EEMD technique exhibited superior noise reduction and over 90% faster processing. This ensemble empirical mode decomposition approach provides an efficient, data-driven methodology for denoising pulse waveforms with applications in biomedical signal analysis.
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用于脉冲信号自动去噪的集合经验模式分解
:脉冲信号经常受到噪声干扰,影响下游分析的信号完整性。本文介绍了一种利用集合经验模式分解(EEMD)对脉冲波形进行自动去噪的技术。EEMD 算法将信号分解为固有模式函数(IMF)。IMF 能量和熵的统计指标可识别噪声成分,通过非线性滤波有针对性地去除噪声成分。对模拟脉冲回波的实验表明,该方法能准确消除噪声区域。与小波分解和蒙特卡罗方法相比,EEMD 技术的降噪效果更佳,处理速度提高了 90% 以上。这种集合经验模式分解方法为生物医学信号分析中应用的脉冲波形去噪提供了一种高效、数据驱动的方法。
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