Information technology of image processing of airboard optical-electronic observation systems in conditions of defocusing and blurring

Abstract

The subject matter of the article is the information technology for image processing of on-board optical-electronic observation systems in conditions of defocusing and blurring. The goal is the development of information technology for image processing of on-board optical-electronic observation systems in conditions of defocusing and blurring. The tasks are: analysis of features of images of onboard systems of optical-electronic observation, formulation of requirements for information technologies for image processing of on-board optical-electronic observation systems in conditions of defocusing and blurring, the development of information technology for for image processing of on-board optical-electronic observation systems in conditions of defocusing and blurring. The methods used are: methods of probability theory, mathematical statistics, optimization methods, mathematical modeling and digital image processing, analytical and empirical methods of comparative research. The following results were obtained. It has been established that the IDEF0 methodology is based on the SADT structural analysis and design method. In accordance with the syntax and semantics of IDEF0, the information technology for image processing of on-board optical-electronic observation systems in conditions of defocusing and blurring can be presented in the form of: a tuple, an upper child diagram, and child diagrams. Conclusions. The scientific novelty of the results obtained is as follows: an applied information technology has been developed for image processing of on-board optical-electronic observation systems in conditions of defocusing and blurring, in which, unlike the known ones, the system modeling methodology IDEF0 is used, which is based on the SADT structural analysis and design method.