Computationally Efficient Image Super Resolution from Totally Aliased Low Resolution Images

2018 26th European Signal Processing Conference (EUSIPCO) Pub Date : 2018-09-01 DOI:10.23919/EUSIPCO.2018.8553237

Adarsh Kumar, N. Narendra, P. Balamuralidhar, M. Chandra

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Abstract

This paper considers the problem of super-resolution (SR) image reconstruction from a set of totally aliased low resolution (LR) images with different unknown sub-pixel offsets. By assuming the translational motion model, a linear compact representation between the LR image spectrums and SR image spectrum, based on multi-coset sampling is provided. Based on this model, we formulate the joint estimation of the unknown shifts and SR image spectrum as a dictionary learning problem and alternating minimization approach is employed to solve this joint estimation. Two different approaches for obtaining the SR image; one based on estimated shifts and another based on estimate SR spectrum are described. The significant advantage of the proposed approach is the smaller matrix sizes to be handled during the computation; typically on the order of number of images and enhancement factors, and is completely independent on the actual dimensions of LR and SR images, hence requiring significantly lesser resources than the current state of the art approaches. Brief simulation results are also provided to demonstrate the efficacy of this approach.

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从完全混叠的低分辨率图像中计算高效的图像超分辨率

本文研究了一组具有不同未知亚像素偏移量的全混叠低分辨率图像的超分辨率图像重建问题。通过假设平移运动模型，给出了基于多共集采样的LR图像频谱和SR图像频谱之间的线性紧凑表示。基于该模型，我们将未知位移和SR图像频谱的联合估计表述为字典学习问题，并采用交替最小化方法求解该联合估计。获取SR图像的两种不同方法;描述了一种基于估计位移的方法和一种基于估计SR谱的方法。该方法的显著优点是在计算过程中需要处理的矩阵尺寸较小;通常取决于图像数量和增强因子的顺序，并且完全独立于LR和SR图像的实际尺寸，因此比目前最先进的方法所需的资源要少得多。简要的仿真结果验证了该方法的有效性。

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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2018 26th European Signal Processing Conference (EUSIPCO)

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