Image Morphological Reconstruction Using Dehazing Algorithm
1SYED SAMEER AHMED, MD ASIM IQBAL, K RAJESH REDDY
Outside pictures are utilized in countless applications, for example, observation, distant detecting, and independent route. The best issue with these kinds of pictures is the impact of ecological contamination: fog, exhaust cloud, and haze beginning from suspended particles noticeable all around, for example, residue, carbon and water drops, which cause corruption to the picture. The end of this sort of debasement is basic for the contribution of PC vision frameworks. The greater part of the best in class research in dehazing calculations is centered around improving the assessment of transmission maps, which are otherwise called profundity maps. The transmission maps are important in light of the fact that they have an immediate connection to the nature of the picture rebuilding. In this paper, a novel rebuilding calculation is proposed utilizing a solitary picture to diminish the natural contamination impacts, and it depends on the dim channel earlier and the utilization of morphological remaking for the quick figuring of transmission maps. The acquired exploratory outcomes are assessed and contrasted subjectively and quantitatively and other dehazing calculations utilizing the measurements of the Peak Signal-to-Noise Ratio (PSNR) and Structural Similarity (SSIM) list; in view of these measurements, it is discovered that the proposed calculation has improved execution contrasted with as of late presented approaches.
dehazing Algorithm, Structural Similarity (SSIM), Peak Signal-to-Noise Ratio (PSNR)