Miaou Shaou-Gang, Yen Heng-Lin, Lin Chih-Lung
Department of Electronic Engineering, Chung Yuan Christian University, Chung-Li, Taiwan, ROC.
IEEE Trans Biomed Eng. 2002 Jul;49(7):671-80. doi: 10.1109/TBME.2002.1010850.
In this paper, we propose a novel vector quantizer (VQ) in the wavelet domain for the compression of electrocardiogram (ECG) signals. A vector called tree vector (TV) is formed first in a novel structure, where wavelet transformed (WT) coefficients in the vector are arranged in the order of a hierarchical tree. Then, the TVs extracted from various WT subbands are collected in one single codebook. This feature is an advantage over traditional WT-VQ methods, where multiple codebooks are needed and are usually designed separately because numerical ranges of coefficient values in various WT subbands are quite different. Finally, a distortion-constrained codebook replenishment mechanism is incorporated into the VQ, where codevectors can be updated dynamically, to guarantee reliable quality of reconstructed ECG waveforms. With the proposed approach both visual quality and the objective quality in terms of the percent of root-mean-square difference (PRD) are excellent even in a very low bit rate. For the entire 48 records of Lead II ECG data in the MIT/BIH database, an average PRD of 7.3% at 146 b/s is obtained. For the same test data under consideration, the proposed method outperforms many recently published ones, including the best one known as the set partitioning in hierarchical trees.
在本文中,我们提出了一种用于压缩心电图(ECG)信号的小波域新型矢量量化器(VQ)。首先,在一种新型结构中形成一种称为树矢量(TV)的矢量,其中该矢量中的小波变换(WT)系数按层次树的顺序排列。然后,从各个WT子带中提取的树矢量被收集到一个单一码本中。此特性相对于传统的WT-VQ方法具有优势,传统方法需要多个码本且通常单独设计,因为各个WT子带中系数值的数值范围差异很大。最后,将一种失真约束码本补充机制纳入VQ,其中码矢量可以动态更新,以保证重建ECG波形的可靠质量。使用所提出的方法,即使在非常低的比特率下,视觉质量和基于均方根差百分比(PRD)的客观质量都非常出色。对于麻省理工学院/贝斯以色列女执事医疗中心(MIT/BIH)数据库中II导联ECG数据的全部48条记录,在146比特/秒时获得的平均PRD为7.3%。对于所考虑的相同测试数据,所提出的方法优于许多最近发表的方法,包括最著名的分层树中的集合划分方法。
