Gennady Vladimirovich Kupovykh was born on June 12, 1964, in Taganrog. Education: Rostov State University, Faculty of Physics (1986), specialty: physicist.
The academic degree of candidate of physical and mathematical sciences was awarded in 1992, the academic title of associate professor in 2003.
The academic degree of Doctor of Physical and Mathematical Sciences was awarded in 2005, the academic title of Professor in 2007.
Honorary Worker of Higher Professional Education of the Russian Federation (2011).
Head of the Department of Physics and Mathematics Foundations of Engineering Education
Research interests: atmospheric physics: atmospheric electricity, mathematical modeling of atmospheric processes.
Over 200 scientific (18 articles in Scopus/WOS databases) and educational works, including 6 monographs, have been published. Hirsch index: RSCI - 15, Scopus - 4, WOS - 2.
As a professor at the department, he taught the following courses for undergraduate and specialist students: "Physics", "Engineering Physics", "Hydraulics", "Fluid Mechanics", "Mathematical Modeling in Natural Science", "Concepts of Modern Natural Science"; for master's students: "Mathematical Modeling in Continuum Mechanics", "Research Seminar"; for postgraduate students: "Information Technology and Mathematical Modeling", "Mathematical Modeling, Numerical Methods and Software Packages".
Head of Educational Programs: Bachelor's degree, 01.03.02 Applied Mathematics and Computer Science, (2014, 2015); Master's degree, 01.04.02 Applied Mathematics and Computer Science, program "Mathematical Modeling in Engineering Sciences" (2017, 2019, 2021); postgraduate study, 05.13.18 (1.2.2) - Mathematical modeling, numerical methods and software packages (2015-2025).
Monographs.
1. Kupovykh G.V., Morozov V.N., Shvarts Ya.M. Theory of the Electrode Effect in the Atmosphere. Monograph, Taganrog: TRTU Publishing House. 1998. 123 p.
2. Adzhiev A.Kh., Kupovykh G.V. Atmospheric-Electrical Phenomena in the North Caucasus. Monograph, Taganrog: TRTU Publishing House. 2004. 137 p.
3. Kupovykh G.V. Electrodynamic Processes in the Atmospheric Surface Layer. Taganrog: TTI SFedU Publishing House, 2009. 114 p.
4. Morozov V.N., Kupovykh G.V. Theory of Electrical Phenomena in the Atmosphere. Monograph. LAP Publishing House: Lambert Academic Publishing GmbH & Co. KG Germany. 2012. 330 p.
5. Shuleikin V.N., Shchukin G.G., Kupovykh G.V. Development of Methods and Tools of Applied Geophysics: Atmospheric-Electric Monitoring of Geological Heterogeneities and Zones of Geodynamic Processes. Monograph. St. Petersburg: Russian State Hydrometeorological University Press, 2015. 206 p.
6. Morozov V.N., Kupovykh G.V. Mathematical Modeling of the Global Atmospheric Electric Circuit and Surface-Layer Electricity. Monograph. St. Petersburg: Asterion, 2017. 307 p.
Articles in Scopus/WOS Databases
Kupovykh G.V., Sukhinov A.I., Marchenko A.G., Klovo A.G. Hydrothermodynamic model for sea surface layer and its implementation on the distributed computing cluster // Parallel Computational Fluid Dynamics-Advanced Numerical Methods, Software and Applications. / B. Chetverushkin, A. Ecer, J. Periaux., N. Satofuka and P. Fox (Editors). Elseiver. 2004. P.315; 318.
Boldyrev A., Kupovykh G., Redin A. Surface Layer Electrodynamic Structure According to the Meteorogical State. Proc. of the 2010 2nd International Conf. on Electronic Computer Technology. May 7-10, 2010. Kuala Lumpur, Malaysia. P. 247-251
Kupovykh G., Redin A., Boldyreff A. Modeling of ionization-recombination processes in the atmospheric surface layer. // Journal of Electrostatics 71. Elsevier B.V. 2013. p. 305-311.
Redin A.A., Kupovykh G.V., Boldyrev A.S. Electrodynamic Model of the Atmospheric Convective-Turbulent Surface Layer // Radiophysics and Quantum Electronics, Volume 56, Issue 11-12, 2014. ‑ pp 739-746.
Adzhiev A. Kh, Kupovykh G. V. Variations in the atmospheric electric field at mountainous observation points // Doklady Earth Science, May 2015, Volume 462, part 1, pp. 502-504
Adzhiev A. Kh, Kupovykh G. V. Measurements of the Atmospheric Electric Fieldunder High-Mountain Conditions in the vicinity of Mt. Elbrus // Izvestiya, Atmospheric and Oceanic Physics, 2015, Vol. 51, No. 6, pp. 633;638.
Kudrinskaya T. V., Kupovykh G. V., Redin A. A. Studying the Ionization of the Atmospheric Surface Layer in Different Geophysical Conditions // Russian Meteorology and Hydrology. April 2018, Volume 43, Issue 4, pp. 258;263
Pshikhopov V., Medvedev M., Kupovikh G., Shibanov V. Position control of mobile robots with multi-contour adaptation 18th IEEE International Conference on Autonomous Robot Systems and Competitions (ICARSC) April 25-27, 2018, Torres Vedras, Portugal P.54-59
Khuchunaev B.M., Kupovykh G.V., Teunova N.V., Bekkiev M.Yu., Panaetov V.P., Khuchunaev A.B., Tashilova A.A., Budaev A.Kh. Study of Ice-Forming Properties of Zinc Oxide and Silver Iodide Nanoreagents // Proc. International Symposium on Engineering and Earth Sciences (ISEES 2018). Advances in Engineering Research, vol. 177. 2018. Atlantis Press. P.363-368
Kupovykh G., Klovo A., Timoshenko D. The Atmospheric Electric Field Variations in The Surface Layer // Russian Open Conference on Radio Wave Propagation (RWP). 1-6 July 2019. Publisher: IEEE. 2019. P. 580; 583.
Kudrinskaya T., Kupovykh G., Adzhiev A., Zainetdinov B., Sokolenko L. Effects of Solar Activity in the Electric Field Variations of the Surface Atmosphere // Russian Open Conference on Radio Wave Propagation (RWP). 1-6 July 2019. Publisher: IEEE. 2019. P. 572; 575
Kupovykh G.V., Timoshenko D.V., Klovo A.G., Kudrinskaya T.V. Electrodynamic processes models in atmospheric surface layer // CATPID-2019. IOP Conf. Series: Materials Science and Engineering. Vol. 698 (2019) 044034. 8 p.
Kupovykh G.V., Kudrinskaya T.V., Timoshenko D.V., Klovo A.G. Electric field measurements at mountain stations in Baksan gorge and on Cheget peak (Elbrus region) // CATPID-2019. IOP Conf. Series: Materials Science and Engineering. Vol. 698 (2019) 044035. 6 p.
Kudrinskaya T.V., Klovo A.G., Kupovykh G.V., Timoshenko D.V. Reduction coefficient and electric field near plane electrode with geometric heterogeneity // Journal of Physics: IOP Conference Series. VIII All-Russian Conference on Atmospheric Electricity. 1604 (2020) 012005. 8 p.
Kupovykh G.V., Timoshenko D.V., Kudrinskaya T.V., Klovo A.G., Modeling of the atmospheric electric field local variations in the turbulent surface layer // Journal of Physics: IOP Conference Series. VIII All-Russian Conference on Atmospheric Electricity. 1604 (2020) 012003. 5 p
Kupovykh G.V., Kudrinskaya T.V. , Grivtsov V.V. The atmosphere electrical characteristics monitoring as an element of technosphere safety // CATPID-2020. IOP Conf. Series: Materials Science and Engineering 913 (2020) 052041 6 p.
KupovykhG.V., KudrinskayaT.V., AdzhievA., ZainetdinovB. Studying of solar-terrestrial connections in the dynamics of the surface atmospheric electric field // E3S Web of Conferences: v. 1156. 2020. p. 309-318
A. Kh. Adzhiev, A. G. Klovo, T. V. Kudrinskaya, G. V. Kupovykh, and D. V. Timoshenko Diurnal Variations of the Electric Field in the Atmospheric Boundary Layer // Izvestiya, Atmospheric and Oceanic Physics, 2021, Vol. 57, No. 4, pp. 397–405. DOI: 10.1134/S0001433821040137
Kupovykh G. V., Timoshenko D. V., Klovo A. G., Kudrinskaya T. V. Electrode effect on the daily variation in the atmospheric electric field in the surface air layer //Atmospheric and Oceanic Optics, 2024, Vol. 37, No. 1, pp. 94–98.
Timoshenko D.V., Kupovykh G.V., Kudrinskaya T.V. Daily dynamics of the electric field in the turbulent surface air layer under the action of local factors // Atmospheric and Oceanic Optics. 2025. Т. 38. № 1. С. 77-82.
