Single Image Haze Removal with Color Correction
(a) Input Image
(b) Dhara et al.
(c) Jeon et al.
(d) Wang et al.
(e) Park et al.
(f) mGIFaCC
(g) GT
(h) Input Image
(i) Dhara et al.Â
(j) Jeon et al.Â
(k) Wang et al.
(l) Park et al.Â
(m) mGIFaCC
Figure 3: Qualitative comparison of the proposed method with competing techniques for a synthetic color-cast image and a natural colo cast image
Input Image
Tripathi et al.
WGIF
Huang et al.
Zhu et al.
Cai et al.
Raikwar et al.
Dhara et al.
AMIF
Proposed mGIFCC (HSI)
Proposed mGIFCC (RGB)
Fig. 5: Qualitative comparison of the proposed method with competing techniques for a natural sand storm image
Groundtruth
Synthetic Color-Cast Hazy Image
Tripathi et al.
WGIF
Huang et al.
Zhu et al.
Cai et al.
Raikwar et al.
Dhara et al.
AMIF
Proposed mGIFCC (HSI)
Proposed mGIFCC (RGB)
Fig. 5: Qualitative comparison of the proposed method with competing techniques for a synthetic color-cast image
Synthetic Hazy Image
Tripathi et al.
WGIF
Huang et al.
Zhu et al.
Cai et al.
Raikwar et al.
Dhara et al.
AMIF
RefineDNet
CEEF
Proposed mGIFCC (HSI)
Proposed mGIFCC (RGB)
GT
Fig. 6: Qualitative comparison of the proposed method with competing techniques for a synthetic hazy image (O-Haze database)
Input Image
Tripathi et al.
WGIF
Huang et al.
Zhu et al.
Cai et al.
Raikwar et al.
Dhara et al.
Zhu et al. (2021)
RefineDNet
CEEF
Proposed mGIFCC (HSI)
Proposed mGIFCC (RGB)
Fig. 7: Qualitative comparison of the proposed method with competing techniques for a natural hazy image
Groundtruth
Synthetic Color-Cast Hazy Image
Tripathi et al.
WGIF
Huang et al.
Zhu et al.
Cai et al.
Raikwar et al.
Dhara et al.
AMIF
Proposed mGIFCC (HSI)
Proposed mGIFCC (RGB)
Fig. 8: Qualitative comparison of the proposed method with competing techniques for a synthetic color-cast image