M. Najmabadi, V. Devabhaktuni, M. Sawan, C. Fallone
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引用次数: 4
摘要
小波分解作为一种新的分析非线性时间序列的信号处理工具正受到越来越多的关注。与传统的傅里叶变换相比,小波变换能更好地表征不连续和突变的函数。因此,基于小波的技术是分析生物信号(例如胃和食管信号)的有力候选,其中可能发生突然变化和尖峰。本文首次将小波分解应用于胃食管反流病诊断中至关重要的食管测压数据分析。将小波分解方法与经验模态分解方法的仿真结果进行了比较。这样的比较表明,小波分解在分解系数的数量(15 vs 17)、cpu时间(0.5 s vs 75 s)和信本比(0.97 vs 0.85)方面取得了更好的结果。
Wavelet Decomposition for the Analysis of Esophageal Manometric Data in the Study of Gastroesophageal Reflux Disease
Wavelet decomposition is gaining attention as a novel signal processing tool for analyzing nonlinear time-series. Compared to traditional Fourier transform, wavelet transform better represents functions exhibiting discontinuities and sudden changes. As such, wavelet-based techniques are strong candidates for the analysis of bio-signals (e.g. gastric and esophageal signals), in which, sudden changes and sharp peaks are likely. For the first time, this paper applies wavelet decomposition to the analysis of esophageal manometric data, which is critical in the diagnosis of gastroesophageal reflux disease. Simulation results of wavelet decomposition are compared with those of a recent approach based on empirical mode decomposition. Such comparison shows that wavelet decomposition leads to better results in terms of number of decomposition coefficients (15 versus 17), CPU-time (0.5 s versus 75 s), and signal-to-background ratio (0.97 versus 0.85).
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