| Study Location | Kyiv |
|---|---|
| Academic Field | G5 Electronics, electronic communications, instrumentation and radio engineering |
| Type | Undergraduate, Full time (on-line study is available) |
| Nominal Duration | 4 years (240 ECTS) |
| Study Language | English |
| Awards | Bachelor of Electronics, electronic communications, instrumentation and radio engineering |
| Entry qualification | The certificate of Completed Secondary Education is required. Compulsory entrance exam. The entry qualification documents are accepted in English (except for documents issued in Ukraine upon completion of studies at local educational institutions) . 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. |
|---|
| Territory requirements | General entry requirement - Student visa. Citizens of the Russia, Iran, Belarus and North Korea who do not hold a permanent residence permit in Ukraine may be admitted for studies only with an individual authorization from the Ministry of Education and Science of Ukraine. |
|---|
| Language Requirements | English (B1/B2) |
|---|
Entrance Exam Description
During the selection process we examine the competency of the applicant in two ways:
The faculty decides about the eligibility of the applicant by examining the documents of previous studies (degree, subject, results). This is followed by an entrance exams that evaluate the level of study-language and basic subjects depends on speciality.
The exams can be conducted online. In order to validate the entrant’s person, exams taken remotely are recorded on video, as is the person verification process. The recording is archived for at least five years on University’s grounds and the link to that recording is available in the united base of Ministry of Education of Ukraine.
Program Structure
Year 1 – Foundations of Electronics & Computing
Subjects: Mathematics for Engineers (Calculus, Linear Algebra), Physics & Electrical Fundamentals, Fundamentals of Programming, Introduction to Electronics, Computer Architecture & IT Tools, Technical Drawing / CAD Basics, English / Ukrainian Language.
Your first year builds the foundation — understanding electronics, programming, physics, and basic IT skills. You learn how circuits, computers, and devices work together.
Year 2 – Core IoT & Systems Principles
Subjects: Digital & Analog Electronics, Microcontrollers & Embedded Systems, Signals and Systems, Computer Networks & Communication Basics, Applied Mathematics & Statistics, Circuit Design & Simulation, Basics of IoT Systems.
The second introduces the heart of IoT — microcontrollers, networks, and embedded systems. You start learning how to make devices “smart” and connected.
Year 3 – Advanced IoT Systems & Integration
Subjects: Internet of Things Architecture & Protocols, Sensors and Actuators, Embedded Software Development, Data Acquisition & Processing, Industrial IoT Systems, System Design & Modeling. Elective Courses (e.g., Smart Homes, Aviation IoT, Robotics).
This year you focus on integrating electronics, sensors, and software into real IoT systems. You design and test smart devices and connected solutions for modern applications.
Year 4 – Practical Experience & Capstone Project
Subjects: Advanced IoT System Design, IoT Security & Cybersecurity for Devices, Cloud Platforms & Data Management, Industrial & Aviation IoT Applications, Internship / Practical Training, Bachelor’s Thesis / Capstone Project, Advanced Electives (e.g., AI for IoT, Smart Cities, Automation).
In the final year, you gain hands-on experience through internships and projects. You design and deploy IoT systems, preparing for a career as an IoT engineer, electronics developer, or automation specialist.
Overview
The program prepares students to create the smart devices and connected systems that power modern life — from smart homes and wearable gadgets to industrial sensors, drones, and aviation monitoring systems. Students learn how electronics, software, sensors, and networks work together, gaining the skills to design, build, and maintain intelligent IoT solutions for real industries. The program is perfect for those who love innovation, digital engineering, and future technologies.
Career Opportunities
Graduates are ready to work as specialists who design and support IoT devices, embedded systems, smart sensors, and automated monitoring platforms used in aviation, manufacturing, logistics, healthcare, and everyday tech. You can build a career as an IoT engineer, electronics developer, embedded software programmer, smart systems designer, automation specialist, or network/infrastructure engineer.
This degree opens opportunities in IT companies, electronics firms, aviation enterprises, smart city projects, industrial automation companies, and international tech corporations.