КОНФЕРЕНЦІЇ ВНТУ електронні наукові видання, XLVII Науково-технічна конференція факультету інфокомунікацій, радіоелектроніки та наносистем (2018)

Розмір шрифта: 
Optical methods of processing of biomedical image of retinal macular region of the eye
Yosyp Saldan, Sergii Pavlov, Dina Vovkotrub, Yulia Saldan

Остання редакція: 2018-03-21

Анотація


This work develops the processing technology of the tomogram image of retina macular area of the human eye that allows to achieve higher efficiency in contour determination.



Оптичні методи обробки біомедичних зображень макулярної області сітківки ока

Aнотація. В роботі розроблена технологія обробки томографічного зображення макулярної області сітківки ока людини, що дозволяє досягати підвищеної ефективності визначення контурів.


Ключові слова


image processing; retinography; tomography; обробка зображень; ретинографія; томографія

Посилання


[1]    Waldemar Wójcik, Andrzej Smolarz// Information  Technology in Medical Diagnostics . London, July 11, 2017 by Taylor &Francis Group CRC Press Reference - 210 Pages.
[2]    Vassilenko, S Valtchev, JP Teixeira, S Pavlov. Energy harvesting: an interesting topic for education programs in engineering specialities / «Internet, Education, Science” (IES-2016) – 2016. – P. 149-156.
[3]    Physical principles of biomedical optics: monograph / [S.V. Pavlov, V.P. Kozhemiako, P.F. Kolesnik et al.]. - Vinnytsya: VNTU, 2010. - 152 p.
[4]    Photoplethysmohrafic technologies of the cardiovascular control / [Pavlov S.V., Kozhemiako V.P., Petruk V.G., Kolesnik P.F.]. - Vinnitsa: Universum-Vinnitsa, 2007. - 254 p.
[5]    Processing of coherent tomographic images / S. Pavlov, A. Poplavskiy, Y. Nikolaychuk, D. Vovkotrub //
VI International conference on optoelectronic  information  tehnologies «Photonics-ODS 2012»,  1-4 october 2012.: abstracts. – Vinnytsia: VNTU, 2012. – P. 115-116.
[6]    Мethods of processing biomedical image of retinal macular region of the eye / Pavlov S. V.,
Vassilenkо V. B., Vovkotrub D. V. [and other] // Optical Fibers and Their Applications 2012 – Lublin and Nałęczów, Poland, 2012 – Proc. of SPIE Vol. 8698 8698-17-1 - 8698-17-6. – ISBN: 9780819494856.
[7]    Pavlov. S. V. Optical-electronic diagnostics of peripheral circulatory / S. V. Pavlov, T. I. Kozlovska, V. P. Dumenko // Modern problems of radio electronics, telecommunications and instrumentation (SPRTP 2009). - Part 2: Fourth Intern. scientific-technical. Conf., Vinnytsia - 2009. - P. 48.
[8]    Ukraine Patent 89377, IPC A61V 5.2. Optical-electronic device for peripheral circulation diagnostics / Pavlov S. V., Kozlovska T. I.; patent owner. Vinnytsia National. Technical. University. № u201306212; appl. 05/20/2013; publ. 04.25.2014, Bul. № 8/2014.
[9]    Ukraine Patent 98939, IPC A61V 5.2. Optical non-invasive device for determining the level of saturation of peripheral blood supply and blood / Zlepko S. M, Sander S. V., Pavlov V. S., Kozlovska T. I.; patent owner. Vinnytsia National. Technical. University. № u2014 13,182; appl. 12/08/2014; publ. 05.12.2015, Bul. № 9/2015.
[10]    Zabolotna N. I., Wojcik W., Pavlov S. V.,  Ushenko O. G., Suleimenov B. Diagnostics of pathologically changed birefringent networks by means of phase Mueller matrix tomography. Proc. SPIE 8698, Optical Fibers and Their Applications 2012, 86980E (January 11, 2013); doi:10.1117/12.2019715
[11]    Snizhko, D. V., Sushko, O. A., Reshetnyak, E. A. et al. Colorimeter based on color sensor // Przegląd Elektrotechniczny, 2017, 93.5: 96–101.
[12]    Ronald Rovira,  Marcia M. Bayas, Sergey V. Pavlov,  Piotr Kisała,  Gulbahar Yussupova. Application of a modified evolutionary algorithm for the optimization of data acquisition to improve the accuracy of a video-polarimetric system. Proc. SPIE 9816, Optical Fibers and Their Applications 2015, 981619 (December 18, 2015); doi:10.1117/12.2229087
[13]    Zabolotna N.I.,  Pavlov S.V., Ushenko A.G.,  Sobko O.V., Savich V.O. Multivariate system of polarization tomography of biological crystals birefringence networks.  Proc. SPIE 9166, Biosensing and Nanomedicine VII, 916615 (August 27, 2014); doi:10.1117/12.2061105
[14]    Bachynskiy M. V. et al. System and algorithm for evaluation of human auditory analyzer state // Proc. SPIE 10445, Photonics Applications in Astronomy, Communications, Industry, and High Energy Physics Experiments 2017, 1044537 (7 August 2017); doi: 10.1117/12.2280738
[15]    Chepurna O.,  Shton I.,  Kholin V., Voytsehovich V., Popov V., Pavlov S., Gamaleia N., Waldemar Wójcik,  Zhassandykyzy M.  Photodynamic therapy with laser scanning mode of tumor irradiation. Proc. SPIE 9816, Optical Fibers and Their Applications 2015, 98161F (December 18, 2015); doi:10.1117/12.2229030
[16]    Rovira R.H, Pavlov S.V, Kaminski O.S, Bayas M.M.  Methods of Processing Video Polarimetry Information Based on Least-Squares and Fourier Analysis // Middle-East Journal of Scientific Research, 2013.
[17]    Vladimir V. Kholin ; Oksana M. Chepurna ; Irina O. Shton, Valerii S. Voytsehovich ; Olexiy D. Azarov, et al.
Methods and fiber optics spectrometry system for control of photosensitizer in tissue during photodynamic therapy , Proc. SPIE 10031, Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2016, 1003138 (September 28, 2016); doi:10.1117/12.2249259.
[18]    Ronald H. Rovira ; Stanislav Ye. Tuzhanskyy ; Sergii V. Pavlov ; Sergii N. Savenkov ; Ivan S. Kolomiets, et al." Polarimetric characterisation of histological section of skin with pathological changes ", Proc. SPIE 10031, Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2016, 100313E (September 28, 2016); doi:10.1117/12.2249373.
[19]    S. V. Pavlov ; V. B. Vassilenko ; D. V. Vovkotrub ; A. A. Poplavskaya and O. Hotra. Methods of processing biomedical image of retinal macular region of the eye ", Proc. SPIE 8698, Optical Fibers and Their Applications 2012, 86980A (January 11, 2013); doi:10.1117/12.2019472.
[20]    Olexander N. Romanyuk ; Sergii V. Pavlov ; Olexander V. Melnyk ; Sergii O. Romanyuk ; Andrzej Smolarz, et al." Method of anti-aliasing with the use of the new pixel model ", Proc. SPIE 9816

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