Proceedings Article10.1109/IEMBS.2001.1020595
ECG compression using dynamic tree vector quantization in wavelet domain
Heng-Lin Yen,Shaou-Gang Miaou +1 more
- 25 Oct 2001
- Vol. 2, pp 1892-1895
TL;DR: The proposed vector quantizer (VQ) in the wavelet domain for the compression of electrocardiogram (ECG) signals outperforms many recently published ones, including the best one known as the SPIHT (set partitioning in hierarchical trees).
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Abstract: 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 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 tree vectors extracted from various WT subbands are collected in one single codebook. 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 bits/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 SPIHT (set partitioning in hierarchical trees).
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Citations
An electrocardiogram signal compression techniques: a comprehensive review
TL;DR: This paper is a review of most promising algorithms of ECG compression with emphasis to wavelet-based ECG signal compression, and it is the observation that the wave let-based algorithms provide better compression performance.
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ECG and APG signal analysis during exercise in a hot environment
Aya Matsuyama
- 01 Jan 2009
TL;DR: The effect of heat stress on the electrocardiogram (ECG) and the acceleration plethysmogram (APG) was investigated and a new peak detection technique achieved a comprehensive detection of more than 98 percent for both the ECG and APG signals without adjusting thresholds.
References
Image coding using wavelet transform
TL;DR: A scheme for image compression that takes into account psychovisual features both in the space and frequency domains is proposed and it is shown that the wavelet transform is particularly well adapted to progressive transmission.
ECG data compression techniques-a unified approach
TL;DR: The theoretical bases behind the direct ECG data compression schemes are presented and classified into three categories: tolerance-comparison compression, DPCM, and entropy coding methods and a framework for evaluation and comparison of ECG compression schemes is presented.
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Wavelet compression of ECG signals by the set partitioning in hierarchical trees algorithm
TL;DR: A wavelet electrocardiogram (ECG) data codec based on the set partitioning in hierarchical trees (SPIHT) compression algorithm is proposed and is significantly more efficient in compression and in computation than previously proposed ECG compression schemes.
Mean-shape vector quantizer for ECG signal compression
TL;DR: A direct waveform mean-shape vector quantization (MSVQ) is proposed here as an alternative for electrocardiographic (ECG) signal compression, leading to high compression ratios (CRs) while maintaining a low level of waveform distortion and preserving the main clinically interesting features of the ECG signals.
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Quality driven gold washing adaptive vector quantization and its application to ECG data compression
Shaou-Gang Miaou,Heng-Lin Yen +1 more
TL;DR: An algorithm is proposed that allows us to assign an initial dth arbitrarily and then automatically progress toward a desired dth according to a specified quality criterion, such as the percent of root mean square difference (PRD) for electrocardiogram (ECG) signals.
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