Efficient Single Image Super-Resolution via Graph Embedding

2012 IEEE International Conference on Multimedia and Expo Pub Date : 2012-07-09 DOI:10.1109/ICME.2012.102

Junjun Jiang, R. Hu, Zhen Han, Kebin Huang, T. Lu

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引用次数: 17

Abstract

We explore in this paper efficient algorithmic solutions to single image super-resolution (SR). We propose the GESR, namely Graph Embedding Super-Resolution, to super-resolve a high-resolution (HR) image from a single low-resolution (LR) observation. The basic idea of GESR is to learn a projection matrix mapping the LR image patch to the HR image patch space while preserving the intrinsic geometrical structure of original HR image patch manifold. While GESR resembles other manifold learning-based SR methods in persevering the local geometric structure of HR and LR image patch manifold, the innovation of GESR lies in that it preserves the intrinsic geometrical structure of original HR image patch manifold rather than LR image patch manifold, which may be contaminated because of image degeneration (e.g., blurring, down-sampling and noise). Experiments on benchmark test images show that GESR can achieve very competitive performance as Neighbor Embedding based SR (NESR) and Sparse representation based SR (SSR). Beyond subjective and objective evaluation, all experiments show that GESR is much faster than both NESR and SSR.

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高效的单图像超分辨率通过图嵌入

本文探讨了单幅图像超分辨率(SR)的有效算法解决方案。我们提出GESR，即图嵌入超分辨率，从单个低分辨率(LR)观测中超解析高分辨率(HR)图像。GESR的基本思想是学习一个映射LR图像patch到HR图像patch空间的投影矩阵，同时保持原始HR图像patch流形的固有几何结构。GESR与其他基于流形学习的SR方法一样，保留了HR和LR图像patch流形的局部几何结构，而GESR的创新之处在于它保留了原始HR图像patch流形的固有几何结构，而不是LR图像patch流形可能因图像退化(如模糊、下采样和噪声)而受到污染。在基准测试图像上的实验表明，GESR的性能与基于邻居嵌入的SR (NESR)和基于稀疏表示的SR (SSR)相当。除了主观评价和客观评价外，所有实验都表明GESR比NESR和SSR都快得多。

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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2012 IEEE International Conference on Multimedia and Expo

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