Fog removing device and image generating method

What is claimed is: 1. An image generating method comprising: separating, in a fog-containing image, a reflectance component and an illumination light component; removing fog based on a fog density separately determined for the reflectance component; removing fog based on the fog density for the illumination light component; and synthesizing an image from which fog has been removed, by using a reflectance component after the fog removal and an illumination light component after the fog removal, wherein under a condition that there is not a reflectance component in airglow and that an atmospheric model holds true to the illumination light component, the atmospheric model being expressed by an equation of I(x)=J(x)t(x)+A(I−t(x)) in which I denotes an observation image including fog and is defined by the product of an illumination light component IL and a reflectance component IR in a Retinex theory in which I, J and A satisfy the Retinex theory, J denotes a processed image not including fog, t denotes a fog density, x denotes the coordinate of a target pixel in the observation image and A denotes the airglow, fog removal is performed separately on the reflectance component and the illumination light component, by applying the Retinex theory to the I, J and A, as JR=(IR*IL−(1−t)AL)/(IL−(1−t)AL) for the reflectance component and as JL=(IL−AL)/t+AL for the illumination light component, wherein JR is a reflectance light component of a processed image not including fog, AL is the airglow due to the illumination light component, and JL is an illumination light component of the processed image not including fog, and degrees of fog removal are different between the reflectance component and the illumination light component due to different values being used for fog densities or due to different weighting of the reflectance component after fog removal and the illumination light component after fog removal. 2. The image generating method according to claim 1 , wherein the degree of fog removal in the reflectance component is higher than the degree of fog removal in the illumination light component. 3. The image generating method according to claim 1 , wherein the degree of fog removal in the illumination light component is higher than the degree of fog removal in the reflectance component. 4. The image generating method according to claim 1 , wherein the degree of fog removal is due to different values being used for fog densities in respective reflectance component and illumination light component. 5. The image generating method according to claim 1 , wherein the degree of fog removal is due to weighting in respective fog removing process results of the reflectance component and the illumination light component.