Hani G. Optic-electronic Devices for Recognition Image Biomedical Information

The object of study - the process of determination of microcirculation data based on application of optoelectronic devices of "eye-processor" type. The subject of research - optoelectronic base, mathematical methods and algorithms of biomedical information processing, architecture of devices of "eye-processor" type. Methods of investigation are based on principle postulates of system analysis and theory of biomedical means, mathematical modeling, analysis and synthesis, mathematical statistics and image information processing, theory of algorithms and optoelecrtonic circuits. The aim of the dissertation is to increase the performance, level of reliability and completeness of analysis of structural biomedical images by means of construction of architecture of optoelectronic devices of "eye-processor" type based on application of KVP-transformation method and principles of digitization of logic-temporal functions. The thesis is devoted to the elaboration of optic-electronic methods and devices for biomedical images and signals processing. The structure of processor elements for realization of multilayеr matrix mediums and model of compression border condition and restoration of biomedical information by construction optic-electronic processors logic-temporary type have been suggested. The concept of "biomedical timer processor" on the operation screen (BTPOS) is introduced. Manyfunctional neural-quantron in the capacity of based element is suggested as automaton which is synthesed with calculation fast algorithms of transformation and processing of biomedical information with definition of sign on base of quantron is realized. The algorithms of Q-transformation by normalization of biomedical image recognizing is medified. The structure and algorithms of processor timer function by diagnose of vessel systems state is elaborated. The scheme-technical and constructive decision of optoelectronic devices realization for biomedical information registration, processing and indication have been suggested. Practical value of the results obtained is that devices intended for realization of optoelectronic means of transformation and processing of biomedical information in order to evaluate the state of microcirculation of conjunctiva and cornea are proposed.