Double Compression Efficiency for Image Data Hiding using Integer Wavelet Transform

2022 International Conference on Engineering & MIS (ICEMIS) Pub Date : 2022-07-04 DOI:10.1109/ICEMIS56295.2022.9914045

A. Ukasha

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Abstract

It is important to reduce image data in transmit and retrieve this data without distortion for many applications such as medical images, military documents, and legal documents. This paper proposes an algorithm that uses a bit-level arithmetic coding to obtain a lossless compressed system through first-level integer wavelet shunting for detailed sub-images. To reduce the data bits, two successive stages of compression are proposed by the discrete cosine transform of the luminance Y channel. The first uses an 8×8 block with a certain threshold value followed & selected triangle zonal region. The second scheme uses an 8×8 block & a certain threshold value followed with selected square zonal region. The results of the dual-stage compression experiments demonstrated its ability to achieve a high compression ratio exceeds to 93% (bit per pixel equals to 0.5) for Y luminance channel while maintaining the quality of the received color original attacked image (Gaussian, Salt& Peppers, and random noise) by about 20 dB than using only one compression stage (discrete cosine transform 8×8 block).

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利用整数小波变换实现图像数据隐藏的双重压缩效率

对于医学图像、军事文件和法律文件等许多应用来说，在传输和检索这些数据时减少图像数据的失真是很重要的。本文提出了一种采用位级算术编码的算法，通过对详细子图像进行一级整数小波分流得到无损压缩系统。为了减少数据位，对亮度Y通道进行离散余弦变换，提出了两个连续的压缩阶段。第一个使用8×8块，具有一定的阈值，然后是选定的三角形区域。第二种方案使用8×8块和一定的阈值，然后是选定的方形区域。双级压缩实验的结果表明，它能够实现Y亮度通道的高压缩比超过93%(比特每像素等于0.5)，同时保持接收到的彩色原始攻击图像(高斯，Salt& Peppers和随机噪声)的质量约20 dB，而仅使用一个压缩级(离散余弦变换8×8块)。

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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2022 International Conference on Engineering & MIS (ICEMIS)

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