Work place: Taras Shevchenko National University of Kyiv, Ukraine
E-mail: tanasiichuk9247@gmail.com
Website:
Research Interests: Microwave Technology, Microwave Measurements, Computational Engineering, Engineering
Biography
Yaroslav Tanasiichuk received MSc. from the Radioelectronics Equipment, Systems, and Complexes degrees from the Radio Physics, Electronics and Computer Systems, Taras Shevchenko National University of Kyiv. He is currently pursuing his Ph.D. in Telecommunication at the Faculty of Radio Physics, Electronics, and Computer Systems, Taras Shevchenko National University of Kyiv. His research interest includes technical diagnostics and microwave engineering.
By Serge Olszewski Yaroslav Tanasiichuk Viktor Mashkov Volodymyr Lytvynenko Irina Lurie
DOI: https://doi.org/10.5815/ijigsp.2022.01.04, Pub. Date: 8 Feb. 2022
The paper reveals the problem of the lack of standard non-destructive diagnostic methods for high-power microwave devices aimed at regeneration. The issue is understudied and requires further research. The conducted analysis of state of the art on the subject area exhibited that image processing was used to specify the examined object's target characteristics in a wide range of research. Having summarized the considered image comparison methods on the subject area of this work, the authors formulated several requirements for the selected image analysis method based on the automated non-destructive diagnosis of resonator units for high-power magnetrons. The primary requirement is using non-iterative algorithms; the second condition is a chosen method of image analysis, and the third option is the number of pixels for a processed image. It must significantly exceed the number of descriptors required for making a decision. Guided by the analysis results and based on the results of previous studies conducted by the authors, the algorithm for identifying a defect in the resonator unit of a microwave device based on the image of the frequency-azimuthal distribution for the probing field phase difference expressed by the Zernike moments is proposed. MATLAB R14a was used as a modeling environment. The descriptor vector was restricted to the Zernike moments, including the 7th order. The work is interdisciplinary and written at the intersection of technical diagnostics, microwave engineering, and digital image processing.
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