The creation of training, expert and similar systems, using archives of complex color images, is a dream of many specialists in various subject matter areas including medicine. However, so far there has not been solved the problem high-quality metrological input to a computer of complex color images. This problem is now being solved mainly in two directions: 1) creation of black-and-white high-resolution hardware with alternate photographic an object through R,G,B-filters and subsequent superposing three images upon each other; 2) creation of high-resolution color hardware. At the same time, in inputting static objects, one more possibility exists, namely; successive input of separate fragments of a complex image with subsequent mathematical joining them in a computer. Here, the effective resolution of hardware used heightens such number times, that is practically proportional to the number of fragments input, except common zones required for high- quality joining. The present work is dedicated to practical realization of the latter direction conformingly to the input of cytological preparations images.