Affiliations: [a]
School of Business, Northwest University of Political Science and Law, Xi’an, China
| [b]
School of Information Engineering, Shaanxi Xueqian Normal University, Xi’an, China
Correspondence:
[*]
Corresponding author. Lina Han, School of Information Engineering, Shaanxi Xueqian Normal University, Xi’an 710061, China. E-mail: snsyyichen@163.com.
Abstract: An improved algorithm of image defogging was proposed based on dark channel prior in order to solve the low efficiency and color distortion in the bright area using original algorithm. If the image contains large areas of bright areas such as sky, white clouds or partial white objects and water surface, we can know that the dark channel prior theory does not apply to these areas. Firstly, it is necessary to clear the bright area of the image. According to principle that he adjacent pixel attributes have similarity, the image transmittance of the local region also has similarity, Block function is Consruted. Applied the dark channel prior, judging whether each block includes a bright area by the absolute value of difference of atmospheric intensity and dark channel, the dark and bright areas of the image are obtained. So the estimation value of the adaptive space transmittance are also obtained. Secondly, the transmittance of bright region is small and it causes deviation, so the enhancement formula is used to modify it dynamically. In order to preserve the edge details after image restoration, for bright areas, using texture function to optimize transmittance independently, for others, using gradient and texture function together. Finally, it restored the fog-free image applying the atmospheric scattering model. The experimental results showed that the restored image had obvious details and rich color and fast processing speed through the proposed algorithm. The algorithm can also be applied to outdoor visual systems, such as video surveillance, intelligent traffic and so on.
Keywords: Dark channel prior (DCP), image defogging, gradient information, texture information, transmittance, atmospheric scattering model
