Author: Ivanovska Kateryna
Supervisor: Bogomolov Mykola
Speciality: 172 Telecommunications and Radio Engineering
Summary: Actuality of theme. Research of form, sizes and deformationof pathological oncologic cages is the important enough stageof diagnostics. The modern optronic systems allowsubstantially to increase a therapeutic relation due to"focusing" of dose of ionizing radiation in a pathological area, here not harming to healthy fabrics.
Research aim. An increase of efficiency of method of diffusiveoptical tomo-graphy is for research of spatial distribution ofoptical parameters and descriptions ofpathological oncologiccages.
Research object: oncologic cages.
Article of research : sizes, deformation and form ofpathological oncologic cages.
Research methods. A decision of direct task of impulsivediffusive tomogra-phy and development of mathematicalmodel of distribution of optical radiation are in biomedicalobjects and their phantoms. Planning is in the softwareenvironment of LabView.
Scientific novelty of the got results. Increase of exactness ofthe got results of planning and reduction to the amount ofcalculations. A method of diffusive optical tomography is mostexact for a search and diagnostics of oncologic cages.
Practical value of the got results: an algorithm is worked outfor the design of optical structure of biological fabrics thatallow to describe pathological rejec-tions.
Publications: the International scientific and technicalconference of "PPFTBO", International scientific andtechnical magazine "the Measuring and calculable techniquein technological processes", International scientific andtechnical confere-nce of "RFSAS".
Keywords: optoelectronics, research, diagnostics, oncologic cages, tomography
The work consists of: 104 pages of explanatory note and 3 appendix
Explanatory note: Full text