| Study Location | Kyiv |
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| Academic Field | G7 Automation, computer-integrated technologies and robotics |
| Type | Postgraduate, Full time (on-line study is available) |
| Nominal Duration | 1,5 years (90 ECTS) |
| Study Language | English |
| Awards | Master of Automation, computer-integrated technologies and robotics |
| Entry qualification | The Bachelor's degree diploma 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. |
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| 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. |
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| Language Requirements | English (B1/B2) |
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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
Semester 1 — Foundations & Core Automation Knowledge
- Mathematical Modelling & Optimization of Systems and Processes — you learn how to model production processes and optimize them for efficiency.
- Applied Theory of Identification — you study methods to identify system parameters and behaviour — important for control and automation.
- Algorithmic & Information Support for Computer-Integrated Systems (Course Project) — building competence in software/algorithm side of integrated production systems.
- Research Methods / Scientific Work Foundations — you begin developing research skills for project work, design and analysis.
Semester 2 — Advanced Systems Design & Specialization
- Design of Computer-Integrated Production Systems — you study how to plan and design complex automated manufacturing or production systems.
- Control Systems Theory (optional / elective courses) — you may take advanced courses in control theory, optimal control, adaptive/situational control, expert systems for decision-making in production.
- Database & Information Systems for Industrial Automation — learning to manage data, databases, and information systems that support production automation and monitoring.
- Project Work / System Simulation & Modelling — practical work or projects to simulate or design parts of automated systems, supporting hands-on skills.
Semester 2 — Master’s Thesis / Professional Preparation
- Specialization & Electives — depending on interest, you may choose topics such as adaptive control systems, expert systems, systems diagnostics, robotics integration, or other advanced automation subjects.
- Master’s Thesis / Final Project — you develop a full research or design project related to computer-integrated production or automation systems — which could involve modeling, design, system integration, or control.
Overview
The program trains you to design, manage, and improve modern automated production technologies — combining automation, computerization, control systems, and manufacturing processes. You learn how to build computer-integrated systems that combine hardware, software, measurement and control to run efficient, intelligent production and industrial processes. The program is oriented toward high-tech industries, and also applies to aviation and aerospace production — which gives it a special edge if you’re interested in advanced engineering fields.
Career Opportunities
After graduation, you can work as an automation or production-systems engineer — designing, launching, and maintaining automated and computer-integrated production lines. You may find jobs in industrial enterprises, manufacturing companies, aerospace and aviation-related production, electronics manufacturing or other tech-intensive industries. You could also become a systems integrator, control-systems designer, or specialist in maintenance/repair of automated complexes. Because your skills cover automation, control, instrumentation, and computer systems — you’ll have flexibility to work in many sectors, including high-tech manufacturing, aerospace, electronics, or industrial automation.