THE CONCEPT OF A “SMART VILLAGE” FOR THE TERRITORY OF UKRAINE
During my studies in Applied Physics and Nanomaterials, I received a strong interdisciplinary education combining physics, mathematics, programming, and nanotechnology. The curriculum included quantum mechanics, statistical and solid-state physics, electrodynamics, thermodynamics, numerical methods, computer modeling, and experimental data analysis. I also studied optical and X-ray methods, semiconductor devices, and nanostructures.
As part of my qualification work, I conducted research and successfully defended my thesis "The Concept of a Smart Village in Ukraine Based on an Intelligent Water-Energy Nexus System," receiving an excellent grade. Practical skills were reinforced through lab sessions, interdisciplinary coursework, and a pre-diploma internship. I completed the program with a total score of 83/100, earning top grades in numerical methods, modeling, and data analysis. This experience shaped my systems thinking and laid a strong foundation for a career in research and engineering.
As part of my qualification work, I conducted research and successfully defended my thesis "The Concept of a Smart Village in Ukraine Based on an Intelligent Water-Energy Nexus System," receiving an excellent grade. Practical skills were reinforced through lab sessions, interdisciplinary coursework, and a pre-diploma internship. I completed the program with a total score of 83/100, earning top grades in numerical methods, modeling, and data analysis. This experience shaped my systems thinking and laid a strong foundation for a career in research and engineering.
Kyiv 
Available for hire