Problem Research Laboratory Medico-Ecological Microprocessor Systems

Scientific adviser:  Valerii Semenets, Doctor of Sciences, Professor, Laureate Ukraine State Prize in the field of science and technology.

Main focus of research:

• research sustainable development medical and ecological bases, anthropogenic impact on the environment, radioecology;
• signal analysis using image recognition methods in ecology and medicine;
• development microcoprocessors for use in medicine and ecology;
• development of training stands and laboratory models for the study of medical and environmental safety on the basis of modern microcontrollers, signal processors and FPGA;
• development of computer measuring equipment;
• research physical fields in biological objects;
• research human musculoskeletal system;
• research on reducing the impact of harmful environmental factors on the population and preventing environmentally caused diseases.

Scientific results:

a) International cooperation

• BMBF project – “3D-Model“;
• DAAD – “Virtual Cryomicroscopy“;
• Agreement with Biomedical Engineering Center, Faculty of Mechanical Engineering, Gottfried Wilhelm Leibniz University of Hanover;
• Memorandum of Cooperation with Institute of Multiphase Processes Gottfried Wilhelm Leibniz University of Hanover;
• project Horizon Europe MSCA CryoStore;
• DAAD – Open Education Resources with Ukraine.

b) State-funded projects:

• № 315 – “Theoretical foundations and concept of diagnosis and treatment of conditions that threaten human life”, fundamental work;
• № 199 – “Development of technology for remote registration of threats to biosafety of drinking and other types of water use in extreme situations”, applied work;

c) Patents:

d) Publications:

• Semenets, V., & Leonidov, V. (2020). Investigation of frequency characteristics of biological tissues impedance. Radiotekhnika, 4(203), 186–190. doi:10.30837/rt.2020.4.203.20
• Bykh, A. I., Kozin, Y. I., Leonidov, V. I., Kravtsov, A. V., & Bobnev, R. А. (2019). Development of the systems for frequency impedancemetry of biotissues using the “Arduino” platforms. Telecommunications and Radio Engineering, 78(1), 71-78. doi:10.1615/telecomradeng.v78.i1.80
• Kosin, U. I., Leonidov, V. I., Kravzov, A. V., & Bobne, R. A. (2017). Device for measurement of biological tissue characteristics. Telecommunications and Radio Engineering, 76(13), 1173-1179. doi:10.1615/TelecomRadEng.v76.i13.50
• Leonidov, V. I., & Semenets, V. V. (2018). Analysis of methods for wind shear detection in area of airports by data of atmosphere acoustic sounding. Telecommunications and Radio Engineering, 77(4), 363-372. doi:10.1615/TelecomRadEng.v77.i4.70
• Semenets, V. V., Kartashov, V. M., & Leonidov, V. I. (2020). Features of acoustic noise of small unmanned aerial vehicles. Telecommunications and Radio Engineering, 79(11), 985-995. doi:10.1615/TelecomRadEng.v79.i11.80
• Semenets, V. V., Kartashov, V. M., & Leonidov, V. I. (2018). Registration of refraction phenomenon in the problem of acoustic sounding of atmosphere in airports zone. Telecommunications and Radio Engineering, 77(5), 461-468. doi:10.1615/TelecomRadEng.v77.i5.90
• Semenets, V. V., & Leonidov, V. I. (2017). Coordinate method for estimation of radial velocity in systems of acoustic sounding of the atmosphere. Telecommunications and Radio Engineering, 6(3), 245-251. doi:10.1615/TelecomRadEng.v76.i3.50
• Semenets, V. V., & Leonidov, V. I. (2019). Model-structural analysis of combination interference in the problems of acoustic sounding of the atmosphere. Telecommunications and Radio Engineering, 78(12), 1087-1095. doi:10.1615/TelecomRadEng.v78.i12.60
• Avrunin, O., Bodyansky, E., Semenets, V., Filatov, V., & Shushlyapina, N. (2018). Information technologies to support decision-making in the definition of nasal breathing disorders. doi: 10.30837 / 978-966-659-235-7
• Avrunin, O., Bodyansky, E., Semenets, V., Filatov, V., & Kalashnik, M. (2018). Modern intelligent technologies of functional medical diagnostics. doi: 10.30837 / 978-966-659-234-0
• Grebennik, I., Semenets, V., & Hubarenko, Y. (2020). Information technologies for assessing the impact of climate change and natural disasters in socio-economic systems doi:10.1007/978-3-030-48939-7_3
• Grebennik, I., Semenets, V., Hubarenko, Y., Hubarenko, M., & Spasybin, M. (2021). Creating a list of works on reconstruction of infrastructure elements in natural disasters based on information technologies doi:10.1007/978-3-030-81469-4_12
• Mintser, O. P., Semenets, V. V., Potiazhenko, M. М., Podpruzhnykov, P. М., & Nevoit, G. V. (2020). The study of the electromagnetic component of the human body as a diagnostic indicator in the examination of patients with non-communicable diseases: Problem statement. Wiadomosci Lekarskie (Warsaw, Poland : 1960), 73(6), 1279-1283.
• Nariezhnii, O. P., Semenets, V. V., & Grinenko, T. O. (2018). Method for measuring quantum phase noise and line width of working transition of radio- optical system of random number generator. Telecommunications and Radio Engineering (English Translation of Elektrosvyaz and Radiotekhnika), 77(19), 1697-1717. doi:10.1615/TelecomRadEng.v77.i19.30
• Semenets, V., Kartashov, V., Sergiyenko, O., Tikhonov, V., Mercorelli, P., Sheiko, S., . . . Flores-Fuentes, W. (2020). The use of factorization and multimode parametric spectra in estimating frequency and spectral parameters of signal. Paper presented at the IEEE International Symposium on Industrial Electronics, , 2020-June 215-219. doi:10.1109/ISIE45063.2020.9152238
• Semenets, V. V., & Stytcenko, T. E. (2016). Analysis of electromagnetic environment and modeling of spurious radiation sources. Telecommunications and Radio Engineering (English Translation of Elektrosvyaz and Radiotekhnika), 75(15), 1385-1396. doi:10.1615/TelecomRadEng.v75.i15.70
• Zhemchuzhkina, T. V., Zlepko, S. M., Nosova, T. V., Semenets, V. V., Kirichek, O. V., Maciejewski, M., & Ormanbekova, A. (2019). Application of EMG-signal phase portraits for differentiation of musculoskeletal system diseases. Paper presented at the Proceedings of SPIE – the International Society for Optical Engineering, , 11176 doi:10.1117/12.2537338
• Kaliuzhnyi, M., Semenets, V., Orlenko, V., Galkin, S., Guo, Q., & Zheng, Y. (2022). Synthesis of a Single-Channel Device for Receiving and Primary Signal Processing under Conditions of Structural-Parametric A priori Uncertainty. 2022 IEEE 2nd Ukrainian Microwave Week, UkrMW 2022 – Proceedings, 573–578. https://doi.org/10.1109/UkrMW58013.2022.10037164

e) Student science:

• student Topchy V. took 3d place at the All-Ukrainian competition of student works (2018) for Methods for analyzing the human musculoskeletal system;
• student Rogovets V. took 2nd place in the All-Ukrainian competition of student research papers (2020) in subject “Metrology and information-measuring technology” for study of radiation safety and dosimetry for medical exposure;
• student Isaieva O. won Kharkiv regional competition of scientific works (2021) in “Natural Sciences” for the work Diagnosis of skin diseases using the SkinScope;
• 2020 – Cabinet of Ministers of Ukraine scholarships to young scientists Yana Nosova, assistant BMЕ Department.

f) Under the agreement on scientific cooperation with SO «Grigoriev Institute for Medical Radiology and Oncology of the National Academy of Medical Sciences of Ukraine» lectures in English “Radiation Protection and Safety in Medical Uses of Ionizing Radiation” was introduced.

• Research ecological safety as a part of national and global safety, medical and ecological risks estimation;
• Research radiation safety when using ionizing radiations in medicine;
• Development microprocessor base for biomedical equipment design.