Content-insensitive blind image blurriness assessment using Weibull statistics and sparse extreme learning machine
Most of the existing image blurriness assessment algorithms are proposed based on measuring image edge width, gradient, high-frequency energy, or pixel intensity variation. However, these methods are content sensitive with little consideration of image content variations, which causes variant estima...
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sg-ntu-dr.10356-1513612021-06-15T05:31:15Z Content-insensitive blind image blurriness assessment using Weibull statistics and sparse extreme learning machine Deng, Chenwei Wang, Shuigen Li, Zhen Huang, Guang-Bin Lin, Weisi School of Electrical and Electronic Engineering School of Computer Science and Engineering Engineering::Electrical and electronic engineering Content-insensitivity Image Blurriness Assessment Most of the existing image blurriness assessment algorithms are proposed based on measuring image edge width, gradient, high-frequency energy, or pixel intensity variation. However, these methods are content sensitive with little consideration of image content variations, which causes variant estimations for images with different contents but same blurriness degrees. In this paper, a content-insensitive blind image blurriness assessment metric is developed utilizing Weibull statistics. Inspired by the property that the statistics of image gradient magnitude (GM) follows Weibull distribution, we parameterize the GM using \beta (scale parameter) and \gamma (shape parameter) of Weibull distribution. We also adopt skewness ( \eta ) to measure the asymmetry of the GM distribution. In order to reduce the influence of image content and achieve more robust performance, divisive normalization is then incorporated to moderate the \beta , \gamma , and \eta. The final image quality is predicted using a sparse extreme learning machine. Performances evaluation on the blur image subsets in LIVE, CSIQ, TID2008, and TID2013 databases demonstrate that the proposed method is highly correlated with human perception and robust with image contents. In addition, our method has low computational complexity which is suitable for online applications. This work was supported by the National Natural Science Foundation of China under Grant 61301090. 2021-06-15T05:31:15Z 2021-06-15T05:31:15Z 2019 Journal Article Deng, C., Wang, S., Li, Z., Huang, G. & Lin, W. (2019). Content-insensitive blind image blurriness assessment using Weibull statistics and sparse extreme learning machine. IEEE Transactions On Systems, Man, and Cybernetics: Systems, 49(3), 516-527. https://dx.doi.org/10.1109/TSMC.2017.2718180 2168-2216 0000-0002-3747-5128 0000-0002-2049-2108 0000-0001-9866-1947 https://hdl.handle.net/10356/151361 10.1109/TSMC.2017.2718180 2-s2.0-85023186701 3 49 516 527 en IEEE Transactions on Systems, Man, and Cybernetics: Systems © 2017 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Content-insensitivity Image Blurriness Assessment Deng, Chenwei Wang, Shuigen Li, Zhen Huang, Guang-Bin Lin, Weisi Content-insensitive blind image blurriness assessment using Weibull statistics and sparse extreme learning machine |
| description |
Most of the existing image blurriness assessment algorithms are proposed based on measuring image edge width, gradient, high-frequency energy, or pixel intensity variation. However, these methods are content sensitive with little consideration of image content variations, which causes variant estimations for images with different contents but same blurriness degrees. In this paper, a content-insensitive blind image blurriness assessment metric is developed utilizing Weibull statistics. Inspired by the property that the statistics of image gradient magnitude (GM) follows Weibull distribution, we parameterize the GM using \beta (scale parameter) and \gamma (shape parameter) of Weibull distribution. We also adopt skewness ( \eta ) to measure the asymmetry of the GM distribution. In order to reduce the influence of image content and achieve more robust performance, divisive normalization is then incorporated to moderate the \beta , \gamma , and \eta. The final image quality is predicted using a sparse extreme learning machine. Performances evaluation on the blur image subsets in LIVE, CSIQ, TID2008, and TID2013 databases demonstrate that the proposed method is highly correlated with human perception and robust with image contents. In addition, our method has low computational complexity which is suitable for online applications. |
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School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Deng, Chenwei Wang, Shuigen Li, Zhen Huang, Guang-Bin Lin, Weisi |
| format |
Article |
| author |
Deng, Chenwei Wang, Shuigen Li, Zhen Huang, Guang-Bin Lin, Weisi |
| author_sort |
Deng, Chenwei |
| title |
Content-insensitive blind image blurriness assessment using Weibull statistics and sparse extreme learning machine |
| title_short |
Content-insensitive blind image blurriness assessment using Weibull statistics and sparse extreme learning machine |
| title_full |
Content-insensitive blind image blurriness assessment using Weibull statistics and sparse extreme learning machine |
| title_fullStr |
Content-insensitive blind image blurriness assessment using Weibull statistics and sparse extreme learning machine |
| title_full_unstemmed |
Content-insensitive blind image blurriness assessment using Weibull statistics and sparse extreme learning machine |
| title_sort |
content-insensitive blind image blurriness assessment using weibull statistics and sparse extreme learning machine |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151361 |
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1703971245822836736 |