In this paper, we propose a novel dehazing method for effectively enhancing complex texture regions by using entropy information. The proposed method improves a drawback of an existing method due to estimating an incorrect transmission map. The proposed method consisted of two steps. In the first step, for effectively estimating a transmission map, an entropy map is generated from YCbCr color space. Then, by applying a threshold value to the entropy map, an input image is divided into complex texture regions and others. In the second step, in order to generate a transmission map, an averaging filter is applied to complex texture regions. And two edge filters are applied to non-texture regions. Consequently, a correct transmission map preserving more details in complex texture regions is generated. Experimental results have shown that the proposed method achieves better performance of image dehazing than existing methods.
[1]
Oscar C. Au,et al.
A novel color interpolation framework in modified YCbCr domain for digital cameras
,
2003,
Proceedings 2003 International Conference on Image Processing (Cat. No.03CH37429).
[2]
Xiaoou Tang,et al.
Single Image Haze Removal Using Dark Channel Prior
,
2011
.
[3]
Pei-Yin Chen,et al.
Hardware Implementation of a Fast and Efficient Haze Removal Method
,
2013,
IEEE Transactions on Circuits and Systems for Video Technology.
[4]
Chunxia Xiao,et al.
Fast image dehazing using guided joint bilateral filter
,
2012,
The Visual Computer.
[5]
Raanan Fattal,et al.
Single image dehazing
,
2008,
ACM Trans. Graph..
[6]
Ming-Sui Lee,et al.
Haze effect removal from image via haze density estimation in optical model.
,
2013,
Optics express.