| Study Location | Kyiv |
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| Academic Field | G5 Electronics, electronic communications, instrument engineering and radio engineering |
| Type | Postgraduate, Full time (on-line study is available) |
| Nominal Duration | 1,4 years (90 ECTS) |
| Study Language | English |
| Awards | Master of Electronics, electronic communications, instrument engineering and radio 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 is designed to develop advanced professional competencies through a combination of theoretical courses, hands‑on practice and research‑oriented work.
1. Core Knowledge and Foundations
Builds an advanced base in key technical areas: Architecture of electronic systems for multimedia and IoT; Digital signal and multimedia data processing; Sensor networks and distributed embedded systems; Wireless communication fundamentals.
These subjects form the backbone of modern connected and intelligent systems.
2. Applied Engineering and System Design
Focuses on implementation and integration: Design of IoT devices and embedded platforms; Integration of sensors, actuators and microelectronic modules; Networked systems and communication protocols; Tools for multimedia data handling and human‑machine interaction.
Practical labs and project assignments help students turn theory into real engineering solutions.
3. Specialised Electives & Advanced Topics
Students can choose specialised courses to deepen their expertise in areas such as: Smart automation and intelligent control; Advanced IoT architectures and cloud integration; Cyber‑physical systems and edge computing; Security and reliability in connected systems.
These electives allow students to tailor their studies to specific industry sectors or career goals.
4. Practical Projects & Collaboration
Hands‑on activities are central to the learning process: Project‑based assignments that simulate real industrial scenarios; Team work on system design and implementation tasks; Case studies using modern engineering software and tools.
These experiences strengthen practical skills and collaborative problem‑solving.
5. Master’s Thesis
The programme culminates in an independent Master’s thesis project that requires students to apply their accumulated knowledge, research skills and engineering competence to solve a real technical or applied problem in electronic systems and IoT technology. This demonstrates ability to analyse, design and implement advanced solutions.
Overview
The program designed to train highly qualified engineers with advanced skills in modern electronic systems, multimedia technologies, and the Internet of Things (IoT).
This programme focuses on interdisciplinary knowledge and practical competence in the development, integration, optimisation, and implementation of intelligent connected systems that combine electronics, communication, embedded devices, sensor networks, data processing and multimedia applications.
Graduates are prepared to work at the forefront of smart technologies used in industry, automation, communication services, and digital platforms.
Career Opportunities
Graduates of this Master’s programme are ready for a wide range of high‑tech professional roles, including:
- IoT Systems Engineer — design, implement and manage Internet of Things solutions;
- Embedded & Multimedia Electronics Developer — create intelligent electronic devices with multimedia capabilities;
- Networked Sensor Systems Specialist — integrate and optimise sensor networks for smart environments;
- Connectivity and Communication Systems Engineer — develop communication protocols and wireless solutions;
- Smart Automation Engineer — build systems for smart manufacturing, smart cities, and automation;
- R&D Engineer in Electronics & IoT — work in research teams developing next‑generation technologies.
These skills are in demand across telecommunications, electronics manufacturing, automation, robotics, smart infrastructure, consumer electronics and digital services industries, both in Ukraine and internationally.