The method of quality assessment of super-resolution restora-tion process from several images on the basis of information theory application is described. The significant advantage of the informational-theoretical approach is the opportunity of determination of total amount of information for several imaging systems, which register the same object, for multiple registration of object in different conditions of its illumination or with subpixel shift. Numerical simulation and physical experiments show that the using of given approach allows theoretically predicting optimal requirements realization of images transmission through scattering media. In the paper the results of the application of method quality assessment to two problems are given. In first, the results of restoration from shifted images sequence depending on the point spread function and numbers of shifts are brought. In the second example, the quality assessment of real-time image restoration from several noised and smoothed by object motion during an exposure is made.