Efficient image/video deblocking via sparse representation

2012 Visual Communications and Image Processing Pub Date : 2012-11-01 DOI:10.1109/VCIP.2012.6410838

Yi-Wen Chiou, C. Yeh, Li-Wei Kang, Chia-Wen Lin, Shu-Jhen Fan-Jiang

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引用次数: 11

Abstract

Blocking artifact, characterized by visually noticeable changes in pixel values along block boundaries, is a common problem in block-based image/video compression, especially at low bitrate coding. Various post-processing techniques have been proposed to reduce blocking artifacts, but they usually introduce excessive blurring or ringing effects. This paper proposes a self-learning-based image/ video deblocking framework via properly formulating deblocking as an MCA (morphological component analysis)-based image decomposition problem via sparse representation. The proposed method first decomposes an image/video frame into the low-frequency and high-frequency parts by applying BM3D (block-matching and 3D filtering) algorithm. The high-frequency part is then decomposed into a “blocking component” and a “non-blocking component” by performing dictionary learning and sparse coding based on MCA. As a result, the blocking component can be removed from the image/video frame successfully while preserving most original image/video details. Experimental results demonstrate the efficacy of the proposed algorithm.

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通过稀疏表示有效的图像/视频块化

在基于块的图像/视频压缩中，特别是在低比特率编码中，块伪影是一个常见的问题，其特征是沿块边界的像素值在视觉上明显变化。各种后处理技术已经提出，以减少阻塞伪影，但他们通常会引入过多的模糊或振铃效果。本文提出了一种基于自学习的图像/视频块化框架，通过稀疏表示将块化适当地表述为基于形态成分分析的图像分解问题。该方法首先利用BM3D (block-matching and 3D filtering)算法将图像/视频帧分解为低频部分和高频部分;然后，通过基于MCA的字典学习和稀疏编码，将高频部分分解为“阻塞分量”和“非阻塞分量”。因此，可以成功地从图像/视频帧中移除阻塞组件，同时保留大多数原始图像/视频细节。实验结果证明了该算法的有效性。

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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来源期刊

2012 Visual Communications and Image Processing

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