Abstract
Blur is an important factor affecting the image quality. This paper presents an efficient no-reference (NR) image blur assessment method based on a response function of singular values. For an image, the grayscale image is computed to the acquire spatial information. In the meantime, the gradient map is computed to acquire the shape information, and the saliency map can be obtained by using scale-invariant feature transform (SIFT). Then, the grayscale image, the gradient map, and the saliency map are divided into blocks of the same size. The blocks of the gradient map are converted into discrete cosine transform (DCT) coefficients, from which the response function of singular values (RFSV) are generated. The sum of the RFSV are then utilized to characterize the image blur. The variance of the grayscale image and the DCT domain entropy of the gradient map are used to reduce the impact of the image content. The SIFT-dependent weights are calculated in the saliency map, which are assigned to the image blocks. Finally, the blur score is the normalized sum of the RFSV. Extensive experiments are conducted on four synthetic databases and two real blur databases. The experimental results indicate that the blur scores produced by our method are highly correlated with the subjective evaluations. Furthermore, the proposed method is superior to six state-of-the-art methods.
Highlights
The quality assessment of digital images has become an increasingly important issue in many modern multimedia systems, where various kinds of distortions are introduced during storage, compression, processing, and transmission
Six public image quality databases are used to estimate the performance of our method, including the laboratory for the image as well as the Video Engineering (LIVE) [28], CSIQ [4], Tampere Image Database 2008 (TID2008) [29], Tampere Image Database 2013 (TID2013) [30], Camera Image Database (CID2013) [31], and Blurred Image Database (BID) [32]
For each image in LIVE and CSIQ, human assessment scores are provided by a difference mean opinion score (DMOS), and for each image in TID2008, CID2013, TID2013, and BID, the human assessment scores are provided by the mean opinion score (MOS)
Summary
The quality assessment of digital images has become an increasingly important issue in many modern multimedia systems, where various kinds of distortions are introduced during storage, compression, processing, and transmission. In the literature [21], the authors proposed a blind image blur evaluation (BIBLE) method based on Tchebichef moments [24], which was are to calculate the sum of the squared non-DC moment (SSM) values. Considering of the impact of the image content, the sum of block variances and entropy are used to normalize the final blur score. We utilize the singular values of the response function (PVRF) combining with the scale-invariant feature transform (SIFT) and the DCT domain entropy, in order to estimate the degree of blur in the images. We combine the variance and DCT domain entropy to normalize the sum of RFSV, and the final blur score is less affected by the image content in our experiment.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
