Courses offered

Courses offered by EU partners

Courses - BME

Courses offered at Budapest University of Technology and Economics

courses in English:

courses in Hungarian:

Courses - CVUT

Study programmes in English at Czech Technical University

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Courses - DIT

Courses offered at Dublin Institute of Technology

Undergraduate courses

Duration of programme: 3-4 years

Graduate courses

Duration of programme: 1 year

Master by Research, PhD, Post Doctoral and Staff Exchange OFFER

If you want to apply for PhD or Post Dococtoral scholarships you should write to the Head of Research, College of Engineering and Built Environment, Dr Marek Rebow ( This email address is being protected from spambots. You need JavaScript enabled to view it.) sending a short document that describes a specialization you are interested in. Dr Rebow will contact you with a potential supervisor/mentor. You have to identify a potential supervisor before your submission.

Courses - ECN

Courses offered at Centrale Nantes

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Courses - TRENTO

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Courses - UPV/EHU

Courses offered in English at the University of the Basque Country (Bilbao, Spain)

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Courses - WUT

Courses offered in English at the Warsaw University of Technology

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Courses offered by non-EU partners

Courses - BNTU



2-nd COHORT (2013 – 2014):


  1. Architecture of Residential and Public Buildings
  2. Interior Design
  3. Urban Planning
  4. Regional Planning
  5. Landscape Architecture


  1. Transport Logistics
  2. Internal Combustion Engines
  3. Automotive Engineering
  4. Tractor Engineering
  5. Urban Electric Transport
  6. Transportation Organization and Management of Road and Urban Transport
  7. Organization of Road Transport


  1. Economics and Production Management
  2. Manufacturing of Building Units and Structures
  3. Civil Engineering
  4. Expertise and Real Estate Management


  1. Vacuum and Compressor Engineering


  1. Software of Information Technologies
  2. Information Systems and Technologies
  3. Automation of Technological Processes and Industries
  4. Automation Systems for Data Processing
  5. Automated Electric Drives
  6. Industrial Robots and Robotics Complexes


  1. Mechanical and Electromechanical Devices and Apparatus
  2. Technology of Materials and Components of Electronic Devices
  3. Optical, Electronic and Laser Devices and Systems
  4. Micro- and Nanosystem Devices
  5. Measuring Instruments
  6. Biotechnical and Medical Apparatus and Systems
  7. Maintenance of Safety Systems
  8. Technology and Equipment for Jewelry Production
  9. Metrology, Standardization and Certification


  1. Low-Temperature Equipment


  1. Materials Science in Mechanical Engineering
  2. Machines and Technology of Material Treatment by Pressure
  3. Welding Equipment and Technology
  4. Foundry Machines and Technology
  5. Metallurgical Production and Materials Treatment
  6. Powder Metallurgy, Composite Materials and Coatings


  1. Engineering Technology
  2. Technological Equipment of Mechanical Engineering
  3. Equipment and Technologies for Highly Efficient Treatment of Materials
  4. Automation of Technological and Manufacturing Processes
  5. Methods and Devices for Quality and Diagnostics Analysis
  6. Intelligent Devices and Machines
  7. Integrated Sensor Systems
  8. Computer Mechatronics


  1. Mining Machines & Equipment
  2. Technology and Equipment for Peat Production
  3. Mining of Mineral Deposits
  4. Ecological Management and Audit in Industry


  1. Power Stations
  2. Power Systems and Grids
  3. Power Supply
  4. Thermal Power Stations
  5. Industrial Heat Power Engineering
  6. Automation and Power Process Control


  1. Heat and Gas Supply, Air-Conditioning and Air Protection
  2. Water Resources Engineering
  3. Water Supply, Waste Water Sewage, Water Resources Protection


  1. Bridges, Transport Tunnels and Underground
  2. Hoisting, Building and Road Machines and Equipment

Courses - BrSTU

Courses offered in English at the Brest State University

FACULTY: Electronics and Information Technology

DEPARTAMENT: Intelligent Information Technologies


 List of offered courses in English

  1. Introduction to Neural Networks
  2. Information Security
  3. Introduction to Bayesian Decision Theory
  4. Theory and application of automation
  5. Assembler Language Programming
  6. Project management



List of offered courses in English

  1. Pattern Recognition
  2. Evolutionary Computation
  3. Fuzzy Logic
  4. Introduction to Intrusion Detection based on Neural Networks
  5. Intelligent Multiagent Systems
  6. Artificial Immune Systems




  1. Intelligent signal processing, including forecasting, EEG and ECG data processing, chaotic time series processing, etc.
  2. Intelligent multiagent systems based on reinforcement learning
  3. Intelligent intrusion and viruses detection
  4. Intelligent control of mobile robots
  5. Intelligent systems in different domain: medicine, robotics, pattern recognition, etc.


More information about Brest State Technical University you can find at websites

If you want to study at Brest State Technical University, Belarus you should contact directly to the local coordinator Prof. Vladimir Golovko This email address is being protected from spambots. You need JavaScript enabled to view it. and Dr. Sergei Bezobrazov This email address is being protected from spambots. You need JavaScript enabled to view it..




Courses - DonNTU


FACULTY: Computer Sciences and Technologies

DEPARTAMENT: Automated Control Systems


1ый семестр

1 term

Высшая математика

Mathematical foundations

Компьютерная логика

Digital logic





Инженерная графика

Engineering Graphics



2ой семестр

2 term

Компьютерная схемотехника

Circuits and Systems



Теория электрических цепей


Высшая математика

Mathematical foundations

Прикладная теория проектирования цифровых автоматов

Digital logic






3 term

Дискретная математика

Discrete Mathematics



Теория вероятностей и математическая статистика

Theory of Probability and Mathematical Statistics

Теория информации и кодирования

Information and Coding Theory

Компьютерная схемотехника

Circuits and Systems

Организация баз данных

Design a database management system

Визуальное программирование и технология .Net

Visual programming and .Net technology

Объектно-ориентированное программирование

Object-oriented programming




4 term

Алгоритмы и методы вычислений

Scientific computing (Numerical methods)

Компьютерная схемотехника

Circuits and Systems

Компьютерная электроника


Системное программирование

System Programming

Обработка сигналов и изображений

Digital Signal Processing

Основы построения и функций организма человека

Fundamentals of structure and functions of the human body

Вероятностные процессы и математическая статистика

Stochastic processes and mathematical statistics




5 term

Архитектура компьютеров

Computer Architectureand Organization

Системное программное обеспечение

System Software

Системное программирование

System Programming

Введение в общую патологию человека

Introduction to the general pathology of human


Software Modeling and Analysis

Обработка сигналов и изображений

Digital Signal and image processing


Artificial neural nets




6 term

Архитектура компьютеров

Computer Architecture and Organization

Параллельные и распределенные вычисления

Parallel and Distributed Computing

Системное программное обеспечение

System Software

Основы диагностики болезней человека

Fundamentals of diagnosis of human diseases

Системы управления базами данных

Manage databases

Криптографические методы шифрования информации

Cryptographic encryption information




7 term

Компьютерные сети

Networking andcommunications

Компьютерные системы

Computer Systems

Периферийные устройства

Design computer peripherals

Системное программное обеспечение

System Software

Диагностика цифровых систем

Diagnosis of Digital Systems

Экспертные системы

Expert Systems

Языки проектирования специализированных компьютерных систем (VHDL)

Languages of specialized computer systems design (VHDL)

Системы управления базами данных

Manage databases

Современные компьютерные системы диагностики

Modern computer systems diagnosis




8 term

Автоматизация проектирования компьютерных систем

Computer-aided design of information systems

Защита информации в компьютерных системах

Information protection in computer systems

Компьютерная графика

Computer graphics

Компьютерные сети

Networking andcommunications

Технологии глобальных компьютерных сетей

Systems administration




9 term

Современные компьютерные системы диагностики

Modern computer systems diagnosis




1 term

Проектирование компьютерных систем диагностики.

Design information systems

Компьютерные биомедицинские технологии оценки функционального состояния систем и организма человека.

Computerbiomedical technologiesfor estimation of systems andhuman body functional status.

Современные методы диагностики цифровых систем.

Modern methods fordiagnosis of digital systems.





Нанотехнологии и наноматериалы.

Nanotechnology andnanomaterials.

Эволюционные вычисления в СКС.

Evolutionarycomputation in the SCS.

Нечеткие методы обработки и анализа данных.

Fuzzymethods for data processing and analysis.

Системы поддержки принятия решений.

Decision Theory


Courses - DonSTU

Courses - KHAI


The Master's Degree is based on a successfully completed Bachelor's Degree


Bachelor's Degree
(4 years of training)

Master's Degree
(1,5 - 2 years of training)

Aircraft and Rocket Engineering
Pilots Training +
Aircraft and Rocket Engineering
Airplanes and helicopters
Technologies of aircraft manufacturing
Designing and manufacturing articles made of composites
Aircraft Engines and Power Plants Aircraft Engines and Power Plants
Technologies of Aircraft Engines and Power Plants Manufacturing
Avionics Control Systems of Aircrafts and Complexes
Computer engineering Computer systems and networks
System programming
Management Management of Organizations and Administration
Management of Foreign Economic Activity
Aircraft Maintenance  



Courses - LPNU


FACULTY: Computer Science and Information Technology

DEPARTAMENT: Computer-Aided Design

Master Program 8.080402 "Information Design Technologies”

Specific requirements for applicants: previous education - bachelor of "Computer Sciences"
1. Development of Computer-Aided Design Systems
2. Design Methods
3. The technology of Large Software Systems Development
4. Design of Databanks for Computer-Aided Systems
5. Methods and Means of Scientific Research in the Innovative Computer Technologies
6. Statistical Modeling
7. Automation Design Systems
8. Computer-Aided Manufacturing Systems
9. Structural, Functionally Logical and Circuit Design Systems
10. CAE Systems

Information technology

1. Development of Computer-Aided Design Systems
The purpose of the course is to study methodology for developing complex software systems and their components and to study the stages of software development beginning from the prior algorithms design stage and till the completion of the software product its testing passing to the customer and further maintenance. Considerable attention is paid to structural design, resources allocation, the basics of software systems and their components building, their testing and debugging.
After mastering the discipline, students must:

  • know the architecture of CAD, features of multiprocessor systems software, problems and principles of CAD, mathematical methods of CAD performance and reliability analysis, CAD simulation.
  • be able to design CAD databases, organize dialogue in CAD, design CAD software, choose the composition of CAD software and hardware, synthesize the CAD structure, conduct analysis and verification of CAD projects.
  • be aware of the technical tasks of CAD creation, graphic systems, design process managing.

2. Design Methods
The course teaches the modern design methods, the principles of object-oriented approach to complex systems design, concepts and methodology for object-oriented design and programming and tools for their support.
The aim of teaching is to provide theoretical and practical knowledge about application of the object-oriented approach in the complex software systems design and to give students information on:

  • the methods of complex systems design;
  • the components of the object approach;
  • the methods of object approach in high-level programming languages;
  • the object-oriented design methodology;
  • the modern tools for object-oriented approach support .

After mastering the course "Design methods" a student should know:

  • the methods of complex systems design;
  • the basic ideas of object approach to design;
  • the  object-oriented design methodology;
  • the tools for object-oriented approach support;

After mastering the course "Design methods", a student should be able to:

  • use the modern methods of complex systems design;
  • use the methodology of object-oriented design for designing complex systems;
  • apply modern tools for the object-oriented approach support;
  • program with the help of modern object-oriented languages.

3. The technology of Large Software Systems Development
The aim of the course is to provide theoretical and practical knowledge required for the development and operation of large software systems and informing about the advanced technologies and tools for their construction.
After mastering the course, students must:

  • know theoretical fundamentals of large software systems building;
  • know the modern technologies of large software systems design;
  • know the modern t tools of large software systems development.

4. Design of Databanks for Computer-Aided Systems
The purpose of the course is to study the stages and phases of the modern data banks design, methods of their design, features of modern databanks management systems. The course includes information about the current databanks and databases, architecture of modern database development tools, object-oriented approach to modern databases design, modern distributed databases and their designing tools.
After mastering the course, students should know:

  • stages and phases of modern databases development;
  • modern methods of database design;
  • characteristics of modern database management systems.

After course the discipline, students should be able to:

  • design databases in modern DBMS environments;
  • practically implement databases in modern DBMS environments.

5. Methods and Means of Scientific Research in the Innovative Computer Technologies
The main purpose of the course is to teach masters the bases of conducting the scientific research in the innovative computer technologies field and reporting the results in scientific institutions, departments, laboratories and in the higher educational institutions.
The objective of the study is mastering the methodology, principles and methods of issuing the theoretical and experimental research results.

6. Statistical Modeling
The purpose of the course is to master the basic mathematical methods used in statistical modeling of complex systems, gain knowledge required for selection the right algorithms and programs for solving problems in a particular subject area.
The course includes information about the structure of the statistical modeling process, methods of gaining pseudorandom sequences with the required laws of distribution, studding and monitoring of their performance. The basic procedure of the simulation results statistical processing and statistical models design principles and tools for their programming are also studied.
An important aim of the course is mastering the presentation techniques to the level of algorithms and program implementation features.
After mastering the course, students should know:

  • the main methods of the complex systems statistical modeling;
  • the methods of the base and derived pseudorandom sequences generation;
  • ways of pseudorandom sequences generators testing in the interval (0.1) with the even probability distribution law;
  • methods of the statistical simulation results analysis.

After mastering the course, students should be able to:

  • select the algorithms and programs for solving problems in a particular subject area;
  • be aware of the possibilities, effectiveness and limitations of the statistical modeling methods.

7. Automation Design Systems
The purpose of the discipline is to teach the methodology of CAD of Micro-Electronics (ME)constructions as a whole and as the individual structural modules, CAD design and implementation methods, give skills for the ME modules designing with the help of computer-aided design engineering.
After mastering the course, students should know:

  • the architecture of CAD ME, methods and means of formalized recording of the ME design modules with regard to the given functional, circuit and technological constraints;
  • methods and tools for automated design of the ME structures;
  • methods and means of automated analysis and testing of the structural components;

After mastering the course, students should be able to:

  • develop formal procedures for the design process implementation (elements calculation, the ME layout, location of the components in the assembly space, connections tracing, physical fields modeling and documentation issuing, verifying the results of the ME and their units engineering design);
  • be aware of the methods and ways of the CAD development improving, their place and role among other automated systems in integrated CAD with the through ME design, the main trends and prospects of the CAD development.

8. Computer-Aided Manufacturing Systems
The course outlines the basics of CAM construction, tasks and objects of automation of the technological production preparation, mathematical models and algorithms of automation of the typical production AFL, constructing bases, problems and methods of integrated computer aided systems for modeling of the structure, composition and equipment manufacturing stations distribution, construction features and demands for complex automated computer aided systems, production manufacturing and management.
The aim of this course is to provide theoretical and practical knowledge in the integration of production units with software and hardware automation systems of technological production preparation, mastering the systemic approach to the representation CAM as the continuity of all its integral parts with the functional environment, knowledge about mutual dependence of all systemic properties, such as performance, reliability and cost, and also give students:

  • practical and theoretical knowledge about the basics of CAM structures building, place and role of such automated computer aided systems development and management of objects at different levels of industrial enterprises;
  • basic concepts about the development of the flexible manufacturing processes that are able to react to the changes in the production process;
  • will teach to conduct structural and parametric optimization of the technological processes and their modeling based on structurally logic and functional models;
  • will teach to choose a right sequence of technological operations in order to use existing and form new technological processes of product manufacturing by analyzing the product for manufacturability.

Having learnt the course "Computer-Aided Manufacturing Systems a student must:

  • know the architecture of a typical system for technological production preparation ;
  • know the structure of flexible manufacturing systems, their functionality and principles of construction;
  • know the methods and means of computer-aided design technologies;
  • be able to analyze the technological features of the product;
  • be able to develop formal procedures of technological processes designing, products developing and documents issuing;
  • be aware of the methods and means of the CAM improving, the role of the CAM and the SHAV among the other automated systems (PCS, ACS, GAVI), the means and methods of information coupling among these automated systems and the main trends and prospects of their development.

9. Structural, Functionally Logical and Circuit Design Systems
The main purpose of the course is to give knowledge and practical skills in the field of structural, functionally logical and circuit design automation.
After mastering the discipline, the expert should know:

  • the main tasks and methods of the structural and functionally logic design automation;
  • the main tasks of the circuit design automation;
  • the machine electronic circuits and components models;
  • the methods and algorithms of circuit design tasks solving;
  • the structure, composition methods and features of the circuit design systems;
  • the main principles of circuit design systems developing, their structure, criteria of methods, models and algorithms selection.

The the expert in this field should be able to:

  • use the existing programs for electronic circuits analysis;
  • choose the methods, algorithms and models for the circuit design systems according to the design object features;
  • carry out the simple electronic circuits with nonlinear elements analysis with the help of the electronic circuits analysis methods and mathematical analysis;
  • debug analog and digital circuits using simulation packages, carry out the electronic circuits with direct current performance analysis, transcedental analysis, amplitude-frequency and phase-frequency analysis, analysis of the temperature influence on the electronic circuits parameters and characteristics.

10. CAE Systems
This course teaches fundamentals of engineering analysis, tasks and objects of physical processes and technical systems engineering simulation, the mathematical models and algorithms of engineering calculations construction, the bases of abstract models construction. The aim of this subject is to master the modern methods and technologies of research and design works automation and their development and to give students:

  • practical and theoretical knowledge about the CAE systems structure and the role of such systems in the life cycle of the product;
  • the basic concepts of engineering calculations systems creation;
  • knowledge about developing abstract models for engineering calculations;
  • knowledge about different technical systems simulation means.

Courses - NAU

I - IV years of study  (BS)

•       Ecology, Environmental Protection and Balanced Nature Resources

•       Computer Engineering

•       Software Engineering

•       Systems Engineering

•       Automation and Computer-Integrated Technologies

•       Power Machine Building

•       Electronic Devices and Systems

•       Radio Engineering

•       Avionics

•       Civil Engineering

•       Biotechnology

•       Air navigation

•       Air Transport Technologies

•       Aircraft Maintenance

       V- VI years of study (MS)

•       Ecology

•       Computer Sciences

•       Power Engineering

•       Radio Engineering

•       Electronic Systems

•       Physic and Biomedical Electronics

•       Computer-Aid Automatics and Control Systems

•       Computer Engineering

•       Civil Engineering

•       Automation and Computer Integrated Technologies

•       Biotechnology

•       Aviation and Space Technology 

•       Transport Technologies (by the types of transport)


Examples of Lecture courses that can be delivered by Professors of NAU in English:







Courses - NTUU KPI








MS Degree Programme

Mathematical methods of simulation and system analysis

Optimal, adaptive, robust, digital control

Design of microprocessor systems (CAD-CAM)

Navigation systems

Control systems

Information technology of aerospace systems

Modern technologies of navigation and control

Computer aided methods of aircraft systems design

Intelligent control systems

Design and optimization of aircraft systems

Special topics of modern automatic control theory

Language of study: Ukrainian, Russian and partially English


Bachelor/Master/PhD Thesis, PhD and Postdoctoral researches

Language of study: Ukrainian, Russian or English


Main Directions of Researches:

Design and investigation of intellectual unmanned (robotics) systems and moving vehicles of different types including UAVs.




MS Degree Programme

Algorithms for modeling of aircraft elements.

Algorithms for assembling of finit element models.

Object-oriented programming and creation of database

Gas Dynamics

Design and optimization of aircraft systems 


Exchange of data in the design systems. 

Algorithms and data exchange interfaces.

Methods of calculation of aircraft loads 

Modern Scientific Researches in the Branch

The dynamics of mechanical constructions

Computer methods of aircraft systems design

Language of study: Ukrainian, Russian and partially English


Bachelor/Master/PhD Thesis, PhD and Postdoctoral researches

Language of study: Ukrainian, Russian or English


Main Directions of Researches:

Computer-aided design (CAD), computer-aided manufacturing (CAM) and computer-aided engineering  (CAE) of flying vehicles of different types.



DEPARTMENTof Chemical Technology



Chemical Technology

Bachelor’sDegree Programme

Physical chemistry

Surface phenomena and disperse systems

Language of study: Ukrainian, Russian, English

Master’sDegree Programmes

Chemical Technology of Inorganic Compounds Programme

-       Technology and equipment of drinking and technical water obtaining

-       Chemistry, technology and equipment of non-organic sewage water purification

Chemical Technology of Polymer and Composite Materials ProcessingProgramme

-       Resource-saving and raw materials of silicate productions

-       Chemical technology of composites based on binding

Language of study: Ukrainian, Russian

Bachelor/Master/PhD Thesis, PhD and Postdoctoral researches

Language of study: Ukrainian, Russian or English


Main Directions of Researches:

-       Theoretical modeling and development of molecular energy storage systems - supercapacitors; Physical chemistry of nonaqueous solutions; Physical and chemical analysis of liquid systems; Kinetics and mechanism of covalent bond heterolysis; Physical and chemical processes on the surface of metal and development of corrosion protection facilities.

-       Water treatment and water purification; Scientific andtechnological basis of the synthesis of sorbents,coagulants, flocculants, newclasses of catalystsas well as inorganic and organic synthesis, petrochemicals,ecological catalysis

-       Resource-saving and raw materials for silicate production; Creation anddevelopment of complextechnologies for environmentally friendly composite coatings and materials using secondary products; Research in chemistry and technology of inorganic binders (cement)and their application fields.





MSC, BSc Degree Programmes

Design in electronics

Theory of information and digital signal processing

Theory of automatic regulation and control

Electronic systems of regulation and control

Fundamentals of Nanoelectronics

VLSI design

  Sensors design

  Micro & Nanoelectromechanical Systems

 Physics of Dielectrics

 Microwave Engineering

 Biomedical signal processing with applications

Digital Signal Processing

Theory of electro-magnetic field

Calculus mathematics (Numerical methods)

Devices of digital electronics


Physics of electronics processes

Introduction to the technique of measuring

Theory of electric circuits -1,2

Electro-, radio- and acoustic materials

 Acoustic equipment of studios and apartments

 Electro acoustic devices

 Personal computers and bases of programming

Applied mechanics

Theory of processes and systems

Probabilistic bases of data processing

Technical electrodynamics and radio waves propagation

Power supply of electronic devices

Theory of telecommunications

Bases of microprocessor technique

Electromagnetic compatibility of radiofacilities

Broadcast systems and networks

Quantum electronics

Technological foundations of electronics


Language of study: English


Bachelor/Master/PhD Thesis, PhD and Postdoctoral researches

SolidStateElectronics, Applied Acoustics and Sound Technique, Semiconductor Power Converters, Medical Instruments and Systems, Computer Systems and Components, Vacuum, Plasma and Quantum Electronics


Language of study: English, Ukrainian or Russian


Main Directions of Researches:

Physical properties of dielectric, semiconductor and nano- materials and their applications; radioelectronic, acoustic, power electronic, biomedical devices and systems investigation and design; digital radio- and biosignals processing.

Courses - ONPU

MSc programmes

  •  Computing systems and networks
  •  Systems’ software
  •  Software engineering
  •  Computer-integrated technological processes and industry
  •  Technological processes’ automated control
  •  Non-conventional and renewed power sources
  •  Thermal power stations.

Courses - TUM