: IEEE Industry Applications Society, IEEE Industrial Electronics Society, IEEE Power Electronics Society, IEEE Control Systems Society, IEEE Young Professionals, and communities within these societies.

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• Grant – Internship in terms of US-Ukraine program to Rochester Institute of Technology, USA, NY (4 months total). Funding agency National Academy of Sciences of US Research institution Rochester Institute of Technology. URL: https://epa.kpi.ua/2023/01/24/rit-control-courses
• Scholarship – Graduate Official Academic Transcript of completion of ‘765 – Optimal Control’ courses, Rochester Institute of Technology, February – May, 2023, New York, USA. Участь у міжнародному проєкті “RIT Global, Virtual Exchange Program – as part of Ukraine Energy CRDF Research”, Rochester Institute of Technology, 2023.
• Grant – Internship in terms of Erasmus+ program to University of Warwick, UK March 2020 – June 2020 Funding agency European union funding agency Principal investigator Sergei M. Peresada Co-investigator Oleh Kiselychnyk Research institution University of Warwick Secondary institution School of Engineering. з 09.03.2020 по 30.06.2020 року (International Credit Mobility (University of Warwick, Great Britain, 25/11/2019-04/12/2019,  Project Number 2018-1-UK01-KA107-047454). Стажування в Університеті Ворика, м. Ковентрі (Великобританія)URL https://epa.kpi.ua/2020/04/27/warwick-internship-phd
• Grant – Internship in terms of DAAD program, University of applied sciences of Mittelhessen (Technische Hochschule Mittelhessen, THM), Germany September 2019 – October 2019 Funding agency DAAD Principal investigator Sergei M. Peresada Research institution Mittelhessen University of Applied Sciences Secondary institution Alexander Kuznietsov. (2 weeks total). University of applied sciences of Mittelhessen (Technische Hochschule Mittelhessen, THM), Germany. Information technology, electrical engineering, Mechatronics Laboratory for Intelligent Systems and Control Engineering. URL,  відео
• Grant – Internship in terms of DAAD program, University of applied sciences of Mittelhessen (Technische Hochschule Mittelhessen, THM), Germany April 2019 – May 2020 Funding agency DAAD Principal investigator Sergei M. Peresada Co-investigator Alexander Kuznietsov Research institution Mittelhessen University of Applied Sciences. Visiting Master of Science (visiting PhD student)Program funded by DAAD (8 months total). URL: https://epa.kpi.ua/2019/05/09/18382
• Scholarship – Leonhard-Euler scholarship, University of applied sciences of Mittelhessen (Technische Hochschule Mittelhessen, THM), Germany. URL: https://epa.kpi.ua/en/2018/10/05/13114. 2.1 Visiting master student by Leonhard Euler scholarship program (1 month total).

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1. Baltic Electronics Conference 2024 (BEC2024), Special Session, Topic “Nonlinear and adaptive control technology in modern electromechanical systems” S Peresada, S Kovbasa, Y Nikonenko, URL: https://taltech.ee/en/bec2024#p4573810
2. 1-Day Workshop Tue Nov 12, School of Engineering, University of Warwick, Coventry, UK, Section ‘Power electronics and renewable energy’, Kyiv, Coventry – November 2019. Topic “Comparison of battery-only and hybrid energy storage systems for electric vehicles”. URL: https://epa.kpi.ua/2019/11/13/workshop-warwick-2019
3. Workshop ‘Advanced Control in Power Systems and Drives’, report “Control algorithms of hybrid energy storage systems for electric vehicles”. Scientific advisor: Sc.D., prof. S. Peresada (KPI), September 2019, THM, Friedberg. URLs: https://epa.kpi.ua/en/2019/09/27/workshop-thm-2019,  відео https://www.youtube.com/watch?v=2gpgXP9pVk0&list=PLj5EWnClqAqvDjcTRMwjyUENXUj3bDSks&index=5.
4. Lecture “Control of hybrid energy storage systems for electric vehicles”. Scientific advisors: Sc.D., prof. S. Peresada (KPI), Dr.Ing., prof. A. Kuznietsov (THM), 2019, THM, Friedberg. URL: https://epa.kpi.ua/en/2019/05/09/18382
5. Bozhko, S. Kovbasa, Y. Nikonenko and S. Peresada, “Direct vector control of induction motors based on rotor resistance-invariant rotor flux observer,” 2018 IEEE International Conference on Electrical Systems for Aircraft, Railway, Ship Propulsion and Road Vehicles & International Transportation Electrification Conference (ESARS-ITEC), 2018, pp. 1-6, doi: https://doi.org/10.1109/ESARS-ITEC.2018.8607640.

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• automatic control systems:
  • feedback linearizing control;
  • nonlinear:
  • adaptive:
  • robust;
  • based on a combination of modern control theory approaches;
• vector control systems:
  • AC electric drives:
    • induction motors (IM);
    • interior permanent magnets synchronous motors (IPMSM);
    • synchronous reluctance motors (SynRelM);
  • power converters, in particular:
    • DC-DC;
    • hybrid energey storage systems;
    • AC-DC;
    • power active filters;
    • induction generators;
• electric drives:
  • transport electric vehicles;
  • drones;
  • mobile robots;
  • robots-manipulators;
• power and energy sources for electric vehicles:
  • batteries;
  • supercapacitors;
  • fuel cells;
  • hybrid energy storage systems;
• electromechanical system parameters identification;
• observation and sensorless control of electromechanical systems;
• non-minimum-phase control plants;
• modern control theory, adaptive and robust control theory, singular perturbation theory, persistency of excitation, mechatronic systems theory, robotics, electromobility, electromechanical systems automation

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1. Peresada S. M., Kovbasa S. M., Nikonenkо E. O., Dymko S. S., Vector control of inductios motors with maximization of the stator torque-current ratio. Monograph, Kyiv, Igor Sikorsky Kyiv Polytechnic Institute, 2023, 139 p. ISBN 978-617-8268-05-3. URL: https://ela.kpi.ua/handle/123456789/62017.
2. Control of electrical drives. Course project [Electronic resource]: recommendations for completing a course project: a textbook for bachelor’s degree students in the educational program “Electromechanical Automation Systems, Electric Drives, and Electromobility,” specialty 141 – Electric Power Engineering, Electrical Engineering, and Electromechanics / Igor Sikorsky KPI; comp.: S. M. Peresada, S. M. Kovbasa, Y. O. Nikonenko. – 3rd ed. revised and supplemented. – Electronic text data (1 file, 3.46 MB). – Kyiv: Igor Sikorsky Kyiv Polytechnic Institute, 2025. – 82 p. – Title from screen. URL: https://ela.kpi.ua/handle/123456789/73756
3. Control of electrical drives. Course project [Electronic resource]: textbook for students studying under the educational program “Electromechanical automation systems, electric drives and electromobility” / Igor Sikorsky KPI; compiled by S. M. Peresada, Y. O. Nikonenko. – Electronic text data (1 file: 1.15 MB). – Kyiv: Igor Sikorsky Kyiv Polytechnic Institute, 2022. – 57 p. URL: https://ela.kpi.ua/handle/123456789/48886
4. Robotics and Mechatronics: a project [Electronic resource]: textbook for students majoring in 141 “Electric Power Engineering, Electrical Engineering, and Electromechanics” / Igor Sikorsky Kyiv Polytechnic Institute; compiled by: S.M. Peresada, Y. O. Nikonenko, O.Yu. Zinchenko – Electronic text data (1 file: 3.9 MB). – Kyiv: Igor Sikorsky Kyiv Polytechnic Institute, 2021. – 115 p. URL: https://ela.kpi.ua/handle/123456789/41011
5. Theory of adaptive and robust control: coursework [Electronic resource]: textbook for students majoring in 141 “Electric Power Engineering, Electrical Engineering, and Electromechanics” / Igor Sikorsky Kyiv Polytechnic Institute; compiled by: S.M. Peresada, C.M. Kovbasa, E.O. Nikonenkо – Electronic text data (1 file: 3.4 MB). – Kyiv: Igor Sikorsky Kyiv Polytechnic Institute, 2020. – 55 p. URL: https://ela.kpi.ua/handle/123456789/37257

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1. Peresada, S., Kovbasa, S., Shcherbachenko, V., Nikonenko, Y., and Podeiko, P. Torque control of synchronous reluctance motors with maximum torque per ampere optimization. Technical Electrodynamics. 2 (Mar 2025), 041. DOI: https://doi.org/10.15407/techned2025.02.041. (in Ukrainian)
2. S. M. Peresada, Y. O. Nikonenko, S. M. Kovbasa, O. Kuznetsov, A. L. Lukyanchikov, “Design of cascaded voltage control systems of bidirectional DC-DC buck-boost converters,” Technical Electrodynamics, no. 1, pp. 27-37, 2024, doi: https://doi.org/10.15407/techned2024.01.027. (in Ukrainian)
3. S. Peresada, D. Rodkin, Y. Nikonenko, S. Kovbasa, V. Polischuk, «Robust control of low-cost direct drives based on interior permanent magnet synchronous motors», Technical Electrodynamics, 2023, №. 2, pp. 37-44. DOI: http://dx.doi.org/10.15407/techned2023.02.037 (Scopus Q3)
4. S. M. Peresada, Y. O. Nikonenko, S. M. Kovbasa, O. Kuznetsov, “Adaptive frequency observers for two-phase and single-phase harmonic signals,” Technical Electrodynamics, 2023, no. 1, pp. 25–33. DOI: http://dx.doi.org/10.15407/techned2023.01.025 (in Ukrainian)
5. Peresada S., Nikonenko Y., Kovbasa S., Rodkin D., Kiselychnyk O. ”Observer-based speed estimation for vector controlled induction motors”, (2022) Technical Electrodynamics, 2022 (1), pp. 25-32. DOI: https://doi.org/10.15407/TECHNED2022.01.025.
6. S. M. Peresada, Y. O. Nikonenko, S. M. Kovbasa, O. Kuznetsov, “Flux observer adaptive to induction motors active rotor resistance variations,” Technical Electrodynamics, 2022, No. 5 (September/October), pp. 45-51, DOI: https://doi.org/10.15407/techned2022.05.045 (in Ukrainian)
7. S. Peresada, S. Bozhko, S. Kovbasa, Y. Nikonenko, “Robust direct field oriented control of induction generator”, Technical electrodynamics, №4, July/August 2021, Kyiv, pp. 14-24, doi: https://doi.org/10.15407/techned2021.04.014

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1. S.M. Peresada, Y. O. Nikonenko, O.Ya. Panchenko, S.O. Stroevyi, “Speed sensorless control of dc motors based on natural stability properties”, Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine, vol. 70, April 2025, p. 051, doi: https://doi.org/10.15407/publishing2025.70.051. (in Ukrainian)
2. Nikonenko, Y. O., and M.V. Filonenko. “Parameters observer of buck- boost DC-DC converters”, Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine, vol. 70, April 2025, p. 075, doi: https://doi.org/10.15407/publishing2025.70.075. (in Ukrainian)
3. S. M. Peresada, S. M. Kovbasa, M. M. Zhelinsky, Y. O. Nikonenko, and O. I. Raichuk, “Stability of voltage vector control systems based on induction generators”, Bulletin of the VPI, vol. 1, pp. 44–49, March 2022. https://doi.org/10.31649/1997-9266-2022-160-1-44-49. (in Ukrainian)
4. S. Peresada, Y. Nikonenko, V. Pyzhov, D. Rodkin, “Sensorless speed control of the direct current motors”, The Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine, no. 58, May 2021, Kyiv, pp. 23-29, doi: 10.15407/publishing2021.58.023.

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1. Peresada, Y. Nikonenko, S. E. Lyshevski, S. Kovbasa, A. Lukianchikov, “Load-dependent control of bidirectional DC-DC converters for vector controlled IPMSM drives,” IEEE 9th International Conference on Energy Smart Systems (ESS), Kyiv, Ukraine, 2024, 6 p. (in publication)
2. S. Peresada, Y. Nikonenko and S. Kovbasa, “Voltage-Current Control in Fully Active Hybrid Energy Storage Systems,” 2023 IEEE 4th KhPI Week on Advanced Technology (KhPIWeek), Kharkiv, Ukraine, 2023, pp. 1-6, https://doi.org/10.1109/KhPIWeek61412.2023.10312949
3. S. Peresada, S. Kovbasa, Y. Nikonenko and D. Rodkin, “Adaptive to rotor resistance variations speed estimation algorithms for induction motors”, 2022 IEEE 3rd KhPI Week on Advanced Technology (KhPIWeek), October 03-07 2022, Kharkiv, 2022, pp. 1-6, doi: 10.1109/KhPIWeek57572.2022.9916501
4. S. Peresada, Y. Nikonenko and S. Kovbasa, “Field-Weakening Methods for Torque-Flux Direct Field-Oriented Control of Induction Motors,” 2022 IEEE 8th International Conference on Energy Smart Systems (ESS), Kyiv, Ukraine, 2022, pp. 292-296, doi: 10.1109/ESS57819.2022.9969273
5. S. Peresada, D. Rodkin and Y. Nikonenko, “Sensorless Control of Interior Permanent Magnet Synchronous Motors: Estimated Reference Frame Approach,” 2022 IEEE 4th International Conference on Modern Electrical and Energy System (MEES), Kremenchuk, Ukraine, 2022, pp. 01-06, doi: https://doi.org/10.1109/MEES58014.2022.10005669
6. S. Peresada, Y. Nikonenko and Y. Zaichenko, “Parameters Identification for Self-Commissioning of DC-DC Boost Converters,” IEEE 3rd Ukraine Conference on Electrical and Computer Engineering (UKRCON), 2021, pp. 417-420, doi: https://doi.org/10.1109/UKRCON53503.2021.9575812

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1. Y. Nikonenko, S. Peresada, “Cyber-physical systems: review of electrical drives case”, International Scientific and Technical Journal “Modern Problems of Electric Power Engineering and Automation, Kyiv, Igor Sikorsky KPI, 2022, pp. 302-305.
2. S. M. Peresada, Y. O. Nikonenko, O. C. Rudenko, “Algorithm for identifying active resistance of rotor asynchronous motors,” Conference proceedings “Youth in Science,” VNTU, Vinnytsia, 2022, 7 p.
3. Nikonenko Y. O., Peresada S. M., Bugaychuk B. V., ” Method of field weakening in vector control systems of asynchronous motors,“ International Conference of Students and Postgraduates ”Modern Problems of Electrical Engineering and Automation,” Kyiv, FEA KPI named after Igor Sikorsky, 2021, 7 p.
4. S. M. Peresada, Y. O. Nikonenko, S. M. Kovbasa, O. V. Statsenko, “Stability of dual-loop DC-DC converter voltage control systems,” 5th International Scientific and Technical Conference “Optimal Control of Electrical Installations” (OKEU), October 19–21, 2021, Vinnytsia, VNTU, 6 p.
5. S. M. Peresada, S. M. Kovbasa, M. M. Zhelinsky, Y. O. Nikonenko, and O. I. Raichuk, “Stability of vector voltage control systems of an asynchronous generator,” 5th International Scientific and Technical Conference “Optimal Control of Electrical Installations” (OKEU), October 19–21, 2021, Vinnytsia, VNTU, 6 p.

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• «Methods of Robust adaptive control of electromechanical systems with improved dynamic performances and energy efficiency». Topic No. 2005-p. State registration number 0115U000381. Term of implementation: start: 01.01.2015, end: 31.12.2017. Role – Category I engineer.
• «Development of efficient electrobus electromechanical system based on adaptive vector-controlled induction motor drive with accumulator-ultracapacitor power sources». Topic No. 2005-p. State registration number 0117U004284. KVNTD code I.2 11.09.03. UDC 621.313. Completion date: start: January 1, 2017, end: December 31, 2018. Role – laboratory assistant, assistant.
• «Adaptive vector control with optimization of power losses for electromechanical systems of electric vehicles with increased dynamic and energy performances», Topic No. 2203p. State registration number – No. 0119U100170. KVNTD code: I.2 11.09.03. UDC: 621.313. Term of execution: start: January 1, 2019, end: December 31, 2021. Role – junior research fellow.
• «A Next Generation of the Highly Efficient Traction Electromechanical Systems With Permanent Magnets Free Motors», Topic No. 2508p. State registration number – No. 0122U001700. KVNTD code: I.2 11.09.03. UDC: 313. Term of execution: start: 01.01.2022, end: 31.12.2023. Role – junior research fellow.
• In total, more than 3,000 pages of scientific and technical reports on completed research have been prepared (author’s share >20-25%).

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Main ones

• Electric drive control / Automation of electromechanical systems / Electric drive control systems (practical, labs).
• Electric drive control. Course project / Course project on electric drive control / Electric drive control. Course project.
• Electromechanical systems of industrial robots (online labs).
• Control systems for electric vehicles / Electromechanical systems of electric vehicles (labs).
• Course project on control systems for electric vehicles / Electromechanical systems of electric vehicles. Course project.
• Mobile robots control.
• Electromechanical systems reliability.
• Modern CAD tools for electromechanical systems / Software packages for CAD of electromechanical systems.
• Control of energy conversion in renewable sources and electric vehicles (online labs).
• Automatic control theory (online labs).
• Nonlinear and discrete automatic control systems (online labs).
• Practical training in software and hardware implementation of electromechanical systems (practical training).

Additional ones

• Automation of technical systems (labs)
• Control and automation of technical systems (labs)
• Integrated automation systems (labs)
• Automated process control systems (practical)
• Automated electric drive (practical)
• Modeling and analysis of electromechanical systems in MATLAB (practical);
• Automation systems. Part 1 (labs)

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1. Kovalchuk, P. O. Distributed control system for hybrid power sources of electric vehicles: bachelor’s thesis: 141 Electrical Power Engineering, Electrical Engineering, and Electromechanics / Kovalchuk Petro Oleksandrovych. – Kyiv, 2023. – 72 p. URI https://ela.kpi.ua/handle/123456789/60014
2. Filonenko, M. V. Vector control system for the torque of synchronous motors with permanent magnets with field weakening: bachelor’s thesis: 141 Electrical Power Engineering, Electrical Engineering and Electromechanics / Filonenko Mykola Valeriyovych. – Kyiv, 2023. – 72 p. URI https://ela.kpi.ua/handle/123456789/60015
3. Filonenko, M. V. Algorithm for identifying the parameters of DC-DC converters in electric vehicles: master’s thesis: 141 Electrical Power Engineering, Electrical Engineering, and Electromechanics / Filonenko Mykola Valeriyovych. – Kyiv, 2024. – 102 p. URI https://ela.kpi.ua/handle/123456789/72166
4. Lenchynskyi, Yaroslav (2024). Vector control system for asynchronous generators taking into account magnetic system saturation: Master’s thesis: 141 Electric Power Engineering, Electrical Engineering, and Electromechanics / Yaroslav Lenchynskyi – Kyiv, 2024. URL: https://ela.kpi.ua/items/97e11ea8-be2c-4cd5-9497-b7610497e4b4
5. Tverdokhlib, Y. A. Asynchronous electric drive for moving the bridge crane-manipulator of rods at a nuclear power plant: master’s thesis: 141 Electric Power Engineering, Electrical Engineering, and Electromechanics / Yaroslav Andriyovych Tverdokhlib. – Kyiv, 2024. – 152 p. URI https://ela.kpi.ua/handle/123456789/72168

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• Bachelor’s degree

1. Zinchenko, O. Y. Initial identification of electrical parameters of synchronous open-pole motors with permanent magnets: bachelor’s thesis: 141 Electrical Power Engineering, Electrical Engineering, and Electromechanics / Zinchenko Oleksiy Yuriyovych. – Kyiv, 2019. – 87 p. URI https://ela.kpi.ua/handle/123456789/53099
2. Dudnik, O. S. Traction synchronous electric drive of electric vehicles with a hybrid power source: bachelor’s thesis: 141 Electric Power Engineering, Electrical Engineering and Electromechanics / Dudnik Oleksiy Serhiyovych. – Kyiv, 2020. – 82 p. URI  https://ela.kpi.ua/handle/123456789/53368
3. Verbovyi, Yu. V. Electromechanical system of a trolleybus with autonomous driving: bachelor’s thesis: 141 Electric Power Engineering, Electrical Engineering and Electromechanics / Verbovyi Yurii Vasylovych. – Kyiv, 2021. – 79 p. URI https://ela.kpi.ua/handle/123456789/42599
4. Polishchuk, V. V. Control of angular velocity and angular position of synchronous salient pole motors: bachelor’s thesis: 141 Electrical Power Engineering, Electrical Engineering and Electromechanics / Polishchuk Vadym Vasylovych. – Kyiv, 2021. – 118 p. URI https://ela.kpi.ua/handle/123456789/42634
5. Shcherbachenko, V. V. Vector control system for synchronous induction motors with torque-current optimization: bachelor’s thesis: 141 Electrical Power Engineering, Electrical Engineering, and Electromechanics / Shcherbachenko Vladislav Viktorovich. – Kyiv, 2023. – 86 p. URI https://ela.kpi.ua/handle/123456789/60564
6. Panchenko, O. Ya. Vector control system for asynchronous motors with torque-current ratio maximization: bachelor’s thesis: 141 Electrical Power Engineering, Electrical Engineering, and Electromechanics / Panchenko Oleksiy Yaroslavovych. – Kyiv, 2023. – 91 p. URI https://ela.kpi.ua/handle/123456789/60563
7. Goloveshkin, D. O. Vector control system for asynchronous motors with full-order observers: bachelor’s thesis: 141 Electrical Power Engineering, Electrical Engineering, and Electromechanics / Goloveshkin Dmytro Oleksandrovych. – Kyiv, 2023. – 91 p. URI https://ela.kpi.ua/handle/123456789/60491

• Master of Sciences’s degree

1. Randyuk, A. A. Two decompositions in vector control systems for AC electric machines: master’s thesis: 141 Electric Power Engineering, Electrical Engineering, and Electromechanics / Randyuk, Andriy Anatoliyovych. – Kyiv, 2018. – 138 p.
2. Rodkin D. I. Adaptive control of the Interior Permanent Magnet Synchronous Motors: master’s thesis: 141 Electric Power Engineering, Electrical Engineering and Electromechanics / Rodkin Dmitry Illich. – Kyiv, 2020. – 106 p.
3. Voloshynenko, D. S. Research on the algorithm for encoderless speed control of a synchronous induction motor: master’s thesis: 141 Electrical Power Engineering, Electrical Engineering, and Electromechanics / Voloshynenko, Denis Serhiyovych. – Kyiv, 2020. – 124 p. (did not come to defense)
4. Bugaychuk, B. V. Prototype of an electric vehicle with a vector-controlled asynchronous electric drive: master’s thesis: 141 Electric Power Engineering, Electrical Engineering and Electromechanics / Bugaychuk Bogdan Viktorovich. – Kyiv, 2021. – 144 p. URI https://ela.kpi.ua/handle/123456789/45768
5. Rudenko, O. S. Vector control of asynchronous motors with adaptation to changes in the active resistances of the rotor and stator: master’s thesis: 141 Electric Power Engineering, Electrical Engineering and Electromechanics / Rudenko Oleksandr Serhiyovych. – Kyiv, 2022. – 185 p. URI https://ela.kpi.ua/handle/123456789/48563
6. Polishchuk, V. V. Vector control system for the angular velocity of synchronous induction motors: master’s thesis: 141 Electric Power Engineering, Electrical Engineering and Electromechanics / Polishchuk Vadym Vasylovych. – Kyiv, 2022. – 172 p. URI https://ela.kpi.ua/handle/123456789/56823
7. Verbovyi, Yu. V. Electromechanical system of a trolleybus with short autonomous travel based on an asynchronous motor: master’s thesis: 141 Electric Power Engineering, Electrical Engineering and Electromechanics / Verbovyi Yurii Vasylovych. – Kyiv, 2023. – 139 p. URI https://ela.kpi.ua/handle/123456789/56564
8. Lukyanchikov, A. L. Vector control of asynchronous motors with elements of artificial intelligence: master’s thesis: 141 Electrical Power Engineering, Electrical Engineering, and Electromechanics / Lukyanchikov Andriy Leonidovich. – Kyiv, 2024. – 196 p. URI https://ela.kpi.ua/handle/123456789/64581
9. Panchenko, O. Ya. Vector control of asynchronous motors with improved optimization based on the torque-current criterion: Master’s thesis: 141 Electric Power Engineering, Electrical Engineering, and Electromechanics / Panchenko Oleksiy Yaroslavovych. – Kyiv, 2025. – 127 p. URI https://ela.kpi.ua/handle/123456789/74800
10. Stroevyi, S. O. Vector control of AC motors based on the principle of passivity: Master’s thesis: 141 Electric Power Engineering, Electrical Engineering and Electromechanics / Stroevyi Serhii Olegovych. – Kyiv, 2025. – 189 p. URI https://ela.kpi.ua/handle/123456789/74801
11. Master’s theses (defended, undergoing the procedure of uploading to the library): Shcherbachenko Vladislav Viktorovich.

• degree of Doctor of Philosophy (PhD, equivalent to “Candidate of Technical Sciences”)

1. Zaychenko, Yu. M. Adaptive control of power active filters with selective harmonic compensation properties: dissertation … candidate of technical sciences: 05.09.03 – electrical engineering complexes and systems / Zaychenko Yuriy Mikhailovich. – Kyiv, 2020. – 196 p. https://ela.kpi.ua/handle/123456789/36050
2. Zhelinsky, M. M. Vector control system for an asynchronous generator with robustness properties to parametric disturbances: dissertation … Candidate of Technical Sciences: 05.09.03 – Electrical Engineering Complexes and Systems / Zhelinsky Mykola Mykolayovych. – Kyiv, 2021. – 214 p. URI https://ela.kpi.ua/handle/123456789/40208
3. Pushnitsyn D. S. Optimal control of electric vehicles (EV): thesis … Candidate of Technical Sciences: 05.09.03 – Electrical Engineering Complexes and Systems / Pushnitsyn Dmytro Serhiyovych, 2021. (did not come to defense)
4. Reshetnik V. S. Highly dynamic adaptive control in electromechanical systems based on synchronous motors with permanent magnets: thesis … Candidate of Technical Sciences: 05.09.03 – Electrical Engineering Complexes and Systems / Reshetnik Viktor Serhiyovych, 2022. (did not come to defense)
5. Rodkin D. I. Control of synchronous motors with permanent magnets without feedback: dissertation … Doctor of Philosophy in the specialty 141 Electric Power Engineering, Electrical Engineering and Electromechanics / Rodkin Dmitry Ilyich, 2023. (did not come to defense)
6. Kornienko V. Yu. Use of pulse mode operation to improve the mass and size characteristics of linear electric drives: dissertation … Doctor of Philosophy in the specialty 141 Electric Power Engineering, Electrical Engineering, and Electromechanics / Kornienko Vladislav Yurievich, 2023 (did not come to defense)

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1. Writing and defense of a PhD dissertation “Control of electromechanical systems of electric vehicles with a hybrid battery-supercapacitor power sources,” DF 26.002.35, November 7, 2023.
2. Graduate Official Academic Transcript of completion of ‘765 – Optimal Control’ courses, Rochester Institute of Technology, February – May, 2023, New York, USA, 120 hours (4 credits ECTS). Participation in the international project “RIT Global, Virtual Exchange Program – as part of Ukraine Energy CRDF Research”, Rochester Institute of Technology.
3. Certificate of completion of the Jean Monnet module “Sustainable language education and media: bridging the gap between EU-Ukraine” (SLEMBG), April – June, 2022, Lutsk, Ukraine.
4. Certificate of advanced training courses in the Department of Power Plants and Systems of the Vinnytsya National Technical University from October 19 to October 21, 2021.
5. More than 10 courses provided by IEEE.

The research results obtained in PhD thesis have been implemented at Polytechnoservice LLC (Brovary, ukr. ‘Polytechnic services’) and in the educational process at the Igor Sikorsky Kyiv Polytechnic Institute to improve lecture notes and update laboratory setups for the disciplines “Electromechanical Systems of Electric Vehicles” and “Energy Conversion Control in Renewable Sources and Electric Vehicles”.
Further implementation is planned at electrical engineering enterprises in Ukraine.

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1. All-Ukrainian competition of student research papers in the field of “Electrical Engineering and Electromechanics”, Kamyanske, DDTU, April 12-15, 2018, Kamyanske, paper: “Development and research of a new control algorithm for a DC-DC voltage converter for hybrid energey storage systems of electric vehicles,” authors Nikonenko Y. O., Randiuk A. A., scientific supervisor – Professor Peresada S.M., received 2 first-degree diplomas (1st place).
2. Three diplomas for the best reports at the conference “Modern Problems of Electrical Engineering and Automation” (SPEA-2017, SPEA-2018, SPEA-2022), Kyiv, Igor Sikorsky KPI (1st place).
3. Diploma for participation in the university Olympiad on the theoretical foundations of electrical engineering, Kyiv, Igor Sikorsky KPI, April 20, 2017 (2nd place).
4. Diploma for participation in the All-Ukrainian Olympiad on the theoretical foundations of electrical engineering, Kharkiv, KPI, 2018 (10th place).
5. 1st place in the university Olympiad on the theoretical foundations of electrical engineering, Kyiv, Igor Sikorsky Kyiv Polytechnic Institute, 2016.
6. 1st place in the university Olympiad in mathematics, Kyiv, Igor Sikorsky Kyiv Polytechnic Institute, 2014.

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