Abstract:The overcomplete dictionary extracted from large scale dataset and sparse representation have been widely applied in image denoise, deblocking and inpainting in recent years. However, this technique can not be directly employed to deal with heterogeneous low resolution and high resolution image patches and relevant image reconstruction with super-resolution as well. The method to yield the sparse representation meeting two overcomplete dictionaries of different scales at the same time is proposed in this paper and the super-resolution reconstruction of image sparse representation is implemented by it. To further improve the super-resolution effect of color images, the UV chroma super-resolution reconstruction based on super-resolution luminance information is put forward as well. The experimental results show the method in this paper obtain better outcome no matter in visual effects or in root mean squared (RMS) error.
[1] Tipping M E, Bishop C M. Bayesian Image Super-Resolution // Becker S, Thrun S, Obermayer K, eds. Advances in Neural Information Processing Systems. Cambridge, USA: MIT Press, 2003, XVI: 1279-1286 [2] Capel D P. Image Mosaicing and Super-Resolution. Cambridge, UK: University of Oxford, 2001 [3] Farsiu S, Robinson M D, Elad M, et al. Fast and Robust Multiframe Super-Resolution. IEEE Trans on Image Processing, 2004, 13(10): 1327-1344 [4] Freeman W T, Pasztor E C, Carmichael O T. Learning Low-Level Vision. International Journal of Computer Vision, 2000, 40(1): 25-47 [5] Freeman W T, Jones T R, Pasztor E C. Example-Based Super-Resolution. IEEE Computer Graphics and Applications, 2002, 22(2): 56-65 [6] Liu Ce, Shum H Y, Zhang Changshui. Two-Step Approach to Hallucinating Faces: Global Parametric Model and Local Nonparametric Model // Proc of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition. Hawaii, USA, 2001, Ⅰ: 192-198 [7] Chang Hong, Yeung D Y, Xiong Yimin. Super-Resolution through Neighbor Embedding // Proc of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition. Washington, USA, 2004, Ⅰ: 275-282 [8] Fan Wei, Yeung D Y. Image Hallucination Using Neighbor Embedding over Visual Primitive Manifolds // Proc of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition. Minneapolis, USA, 2007: 18-23 [9] Chan T M, Zhang Junping, Pu Jian, et al. Neighbor Embedding Based Super-Resolution Algorithm through Edge Detection and Feature Selection. Pattern Recognition Letters, 2009, 30(5): 494-502 [10] Yang Jianchao, Wright J, Huang T, et al. Image Super-Resolution as Sparse Representation of Raw Image Patches // Proc of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition. Anchorage, USA, 2008: 1-8 [11] Candès E J. Compressive Sampling // Proc of the International Congress of Mathematicians. Madrid, Zarich, 2006: 1433-1452 [12] Candès E J, Wakin M. An Introduction to Compressive Sampling. IEEE Signal Processing Magazine, 2008, 25(2): 21-30 [13] Donoho D L, Elad M. Optimally Sparse Representation in General (Nonorthogonal) Dictionaries via l1 Minimization. Proc of the National Academy of Sciences, 2003, 100(5): 2197-2202 [14] Mallat S G, Zhang Zhifeng. Matching Pursuits with Time-Frequency Dictionaries. IEEE Trans on Signal Processing, 1993, 41(12): 3397-3415 [15] Pati Y C, Rezaiifar R, Krishnaprasad P S. Orthogonal Matching Pursuit: Recursive Function Approximation with Applications to Wavelet Decomposition // Proc of the 27th Asilomar Conference on Signals, Systems and Computers. Pacific Grove, USA, 1993: 40-44 [16] Chen S S, Donoho D L, Saunders M A. Atomic Decomposition by Basis Pursuit. SIAM Review, 2001, 43(1): 129-159 [17] Gorodnitsky I F, Rao B D. Sparse Signal Reconstruction from Limited Data Using FOCUSS: A Re-Weighted Norm Minimization Algorithm. IEEE Trans on Signal Processing, 1997, 45(3): 600-616 [18] Aharon M, Elad M, Bruckstein A M. The K-SVD: An Algorithm for Designing of Overcomplete Dictionaries for Sparse Representation. IEEE Trans on Signal Processing, 2006, 54(11): 4311-4322 [19] Tomasi C, Manduchi R. Bilateral Filtering for Gray and Color Images // Proc of the 6th IEEE International Conference on Computer Vision. Bombay, India, 1998: 839-846 [20] Su K, Qi T, Qing X, et al. Neighborhood Issue in Single-Frame Image Super-Resolution // Proc of the IEEE International Conference on Multimedia and Expo. Amsterdam, Netherlands, 2005: 1122-1126
2010, Vol. 23 
