· Training of engineers in “Mobile Object Communications Facilities ”
· Training of undergraduate students in “Radio Engineering”
· Training of graduate students in “Television Systems and Video Facilities”
· Doctoral and postdoctoral programmes are offered in “Information and Management Processing Systems” and “Special-Purpose Radio Engineering Systems (including microwave facilities and their manufacturing technology)”,
Major Results of Research
· New mathematical models describing Gaussian discrete fields with separable spectral-correlation characteristics have been proposed and studied. Based on these models new methods of fast multi-dimensional filtration have been developed which make it possible to process images and other multi-dimensional signals in a recurrent mode.
· A new direction of statistical analysis of non-linear radio engineering systems based on the Fourier-Hermite functional series has been initiated. The method of approximate diagonalization of Wiener expansion of a non-linear system reaction has been developed, which makes it possible to find a distribution law of a system reaction to a random action.
· Construction procedures for the Bayes two-stage estimators of multidimensional non-Gaussian signals and images have been developed. These procedures are based on the property of conditional independence of random fields and efficiently use incomplete data. Algorithms of image filtration, segmentation and identification are parallel or parallel recurrent in structure, which provides their high processing speed.