| Study Location | Kyiv |
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| Academic Field | G3 Electrical Engineering |
| Type | Postgraduate, Full time (on-line study is available) |
| Nominal Duration | 1,4 years (90 ECTS) |
| Study Language | English |
| Awards | Master of Electrical Engineering |
| Entry qualification | Bachelor's Degree is required. Compulsory entrance exam. The entry qualification documents are accepted in English. In most cases you can request a suitable transcript from your school. If this is not the case, you will need official translations along with verified copies of the original. You must take the original & legalized (according to the international agreements) entry qualification documents along with you when you finally enter the university. |
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| Territory requirements | Citizens of the Russia, Iran, Belarus and North Korea are not allowed. |
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| Language Requirements | English (B1/B2) |
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Entrance Exam Description
Subjects of the exam: English Language, specialty exam.
Program Structure
The curriculum builds advanced technical competencies, practical skills and engineering thinking through a blend of core courses, applied work and research:
1. Core Engineering Foundations
Students broaden their expertise in key engineering areas such as: Modelling and analysis of electrotechnical and mechatronic systems; Intelligent control theory and automation methods; Electromechanical systems design and optimisation; Power electronics, drives and digital control.
These subjects deepen understanding of smart electromechanical systems design and functionality.
2. Applied Technical Training
Practical learning ensures career-ready skills: Computer-based simulation and modelling of complex systems; Laboratory and design projects in electromechanical and control technologies; Applied case studies in intelligent electrotechnical engineering; Hands-on exercises and real-world problem solving are central to the programme.
3. Systems Integration & Control
Students build competencies in integrating multiple engineering technologies: Intelligent decision-making systems; Automated design environments for electromechanical complexes; Systems engineering methods for smart automation.
This component gives graduates the ability to design complex integrated systems that blend electrical, mechanical and software elements.
4. Practical Projects & Industrial Application
Students work collaboratively on projects that: Address real engineering challenges; Use industry-relevant tools and simulation software; Involve interdisciplinary teamwork.
These applied experiences are tailored to professional settings where electromechanical and automatic systems are developed and maintained.
5. Master’s Thesis
The programme culminates in an independent Master’s thesis project, where students demonstrate their ability to: Integrate theoretical knowledge and practical methods; Solve complex technical problems in electrotechnical and mechatronic engineering; Prepare original solutions that have industrial or research applicability.
This capstone project showcases mastery of modern engineering techniques and systems thinking.
Overview
This programme is designed to develop specialists capable of solving advanced electrical, electromechanical and mechatronic engineering problems, particularly in the context of intelligent systems, automation, modelling and control of complex electrotechnological systems using modern software and technologies.
Career Opportunities
Graduates of this programme are prepared for cutting-edge professional and engineering roles in sectors where electrical and electromechanical systems intersect with automation and intelligent control:
- Intelligent Systems and Mechatronics Engineer – design, model and deploy smart electrotechnical systems;
- Automation and Control Specialist – develop control systems for electrical/mechatronic complexes;
- R&D Engineer in Electromechanics – innovate new technologies in smart machinery and systems;
- Systems Integration Engineer – integrate electrical, mechanical and control components into robust solutions;
- Test and Validation Engineer – ensure performance and reliability of electrotechnical systems;
- Technical Consultant / Project Engineer – support industrial electrification and automation projects.
Graduates are competitive in energy companies, industrial automation sectors, electromechanical manufacturing, research & development organisations and intelligent systems engineering enterprises.