Title :
Single image dehazing based on detail loss compensation and degradation
Author :
Zhang, Hong ; Li, Jiafeng ; Li, Lu ; Li, Yuecheng ; Zhao, Qian ; You, Yuhu
Author_Institution :
Image Process. centre, Beihang Univ., Beijing, China
Abstract :
Most image dehazing methods are based on the dichromatic atmospheric scattering model. However, this model cannot explain blurring effects. In this paper, we present a detail loss compensating model, based on the analysis of multiple scattering model. By assuming that the foggy image has less detail than the image captured on a clear day, we use the Laplacian template and present a smoothing point spread function to estimate the detail loss of a foggy image. The fog noise is subsequently obtained based on the estimated detail loss, and the inherent radiance of the scene can therefore be restored. Experimental results show that our method have good dehazing effect and enhance the image sharpness to a certain extent.
Keywords :
image denoising; image enhancement; image restoration; optical transfer function; smoothing methods; Laplacian template; blurring effect; dichromatic atmospheric scattering model; fog noise; foggy image capturing; image enhancement; image restoration; loss compensating model; loss degradation; multiple scattering model; scene radiance; single image dehazing method; smoothing point spread function; Atmospheric modeling; Helium; Image color analysis; Image restoration; Mathematical model; Meteorology; Scattering; Detail loss compensation; Multiple Scattering Model; real-time processing; single image dehazing;
Conference_Titel :
Image and Signal Processing (CISP), 2011 4th International Congress on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4244-9304-3
DOI :
10.1109/CISP.2011.6100341
