Abstract:
Atmospheric particles scatter light, reducing the visibility of images taken in poor weather. SID methods restore visibility from hazy images. Its ill-posedness makes the SID difficult. The atmospheric scattering model (ATSM) solves SID problems. Read aslo Image Processing Projects
Transmission and atmospheric light are key ATSM parameters. Transmission and atmospheric light values affect SID accuracy and effectiveness. The method estimates the minimum color channel difference between hazy and haze-free images.
The translated problem lowers transmission and reduces dehazing reconstruction error. BF and quality control parameter determine the lower bound. For transmission estimation, BF is estimated using a non-linear model.
The quality control parameter can tune dehazing. The transmission method’s accuracy is compared to current dehazing methods. Visual comparison of dehazed images and objective evaluation confirm the method’s efficacy. Read also Communication Projects.
Note: Please discuss with our team before submitting this abstract to the college. This Abstract or Synopsis varies based on student project requirements.
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