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Variational Histogram Equalization for Single Color Image Defogging

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  • Li Zhou
  • Du Yan Bi
  • Lin Yuan He

Abstract

Foggy images taken in the bad weather inevitably suffer from contrast loss and color distortion. Existing defogging methods merely resort to digging out an accurate scene transmission in ignorance of their unpleasing distortion and high complexity. Different from previous works, we propose a simple but powerful method based on histogram equalization and the physical degradation model. By revising two constraints in a variational histogram equalization framework, the intensity component of a fog-free image can be estimated in HSI color space, since the airlight is inferred through a color attenuation prior in advance. To cut down the time consumption, a general variation filter is proposed to obtain a numerical solution from the revised framework. After getting the estimated intensity component, it is easy to infer the saturation component from the physical degradation model in saturation channel. Accordingly, the fog-free image can be restored with the estimated intensity and saturation components. In the end, the proposed method is tested on several foggy images and assessed by two no-reference indexes. Experimental results reveal that our method is relatively superior to three groups of relevant and state-of-the-art defogging methods.

Suggested Citation

  • Li Zhou & Du Yan Bi & Lin Yuan He, 2016. "Variational Histogram Equalization for Single Color Image Defogging," Mathematical Problems in Engineering, Hindawi, vol. 2016, pages 1-17, August.
  • Handle: RePEc:hin:jnlmpe:9897064
    DOI: 10.1155/2016/9897064
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