摘要
目的针对目前基于稀疏表示的超分辨率重建算法中对字典原子的选取效率低、图像重建效果欠佳的问题,本文提出了核方法与一种高效的字典原子相关度筛选方法相融合的图像超分辨重建算法,充分利用字典原子与图像的相关度,选用对重建的贡献最大的原子来提高重建的效率和效果。方法首先,通过预处理高分辨率图像得到高、低分辨率图像样本集,再用字典学习得到高、低分辨率字典对;然后,对字典原子进行非相关处理提高字典原子的表达能力;此后,再利用低分辨率字典,引入核方法和字典原子筛选方法进行稀疏表示,设置阈值筛选高相关原子,低相关度原子对重建贡献度低,在迭代过程中耗费计算量,所以舍去低相关原子,再对普通原子进行正则化处理后加入支撑集,处理后的字典原子对于重建具有很好的表达能力;最后,利用处理后的字典原子对低分辨率图求解稀疏表示问题得到稀疏表示系数,结合高分辨率字典重建出高分辨率图像。结果实验通过与其他学习算法对比,得到结构相似度(SSIM)、峰值信噪比(PSNR)以及重建时间的结果。实验结果表明:本文方法与对比方法相比,图像重建时间提高了22.2%;图像结构相似度提高了9.06%;峰值信噪比提高了2.30 dB。原有的基于字典学习的方法对于字典选取具有一定的盲目性,所选取的原子与重建图像相关度较低,使重建效果差,本文方法获得的字典原子可以减少稀疏表示过程的时耗,同时提高稀疏表示的精度。引入核方法,改善经典算法中对原子选取的低精度问题,经实验证明,本方法能有效提高重建算法性能。结论实验结果表明,图像的稀疏表示过程的重建时间明显减少,重建效果也有一定的提高,并且在训练样本较少的情况下同样有良好的重建效率和效果,适合在实际中使用。
Objective To overcome the low efficiency of dictionary atom screening and the poor effect of image reconstruction results in some super-resolution methods based on sparse representation,which are mostly unconsidered in atom screening,this paper proposes a super-resolution reconstruction algorithm. This algorithm is based on a combination of kernel method and dictionary atomic correlation,which fully uses the correlation between the dictionary and image,and selects the atoms,which significantly contributes to the reconstruction results and improves the efficiency and effect of the reconstruction. Method First,a set of low-and high-resolution samples are obtained by pre-processing applied on the high-resolution images. Low-and high-resolution dictionaries are learned by using a dictionary learning algorithm. Second,the dictionary atom is uncorrelated to improve the ability of the dictionary atom to express. Third,by using the low-resolution dictionary,the kernel method and dictionary atom screening method are used for sparse representation,to set thresholds to screen for highly correlated atoms,eliminate low-correlation atoms,and then use the normal atoms for normalized processing. The resulting high-and low-resolution dictionary atoms are incoherent,thereby eliminating the similarity between dictionary atoms,enhancing the expressive power of dictionary atoms,and helping to select the next dictionary atoms. In the process of solving the representation coefficient,selecting the appropriate atoms from the low-resolution dictionary to the support set,which is the largest part of the computation,is necessary. When updating the support set,the dictionary of low-resolution images is trained from other images,which leads to the large contribution of some atoms to the samples. The atoms with low correlation often do not contribute during the iteration process,but each iteration has considerable computation costs. At the same time,for the image blocks that need to be restored,a number of highly correlated atomic pairs have
作者
程德强
刘威龙
邵丽蓉
陈亮亮
Cheng Deqiang;Liu Weilong;Shao Lirong;Chen Liangliang(School of Information and Control Engineering,China University of Mining and Technology,Xuzhou 221008,China)
出处
《中国图象图形学报》
CSCD
北大核心
2018年第9期1285-1292,共8页
Journal of Image and Graphics
基金
国家自然科学基金项目(51774281)
江苏省六大人才高峰资助项目(2015-ZBZZ-009)
徐州市重点研发项目(KC16GZ013)~~
关键词
稀疏表示
超分辨率重建
核方法
原子相关度
非相关处理
sparse representation
super-resolution reconstruction
kernel method
atomic correlation
unrelated processing
