The applicants

Technical Cybernetics Department

conducts recruitment of students for study in specialty

“Flexible computerized systems and robotics“

Education supported by state budget or individual contract

Students get conscription delay during educational period.

Why do students choose exactly Department of Technical Cybernetics?

Because system engineering enables to use practically scientific, analytical, engineering and management skills, required to form a powerful tool in solving problems of technical management, development of special modern technologies, business planning and its components etc. Department of Technical Cybernetics gives a chance to approach intriguing problems of human natural intelligence that defines the most difficult forms of intellectual activity. This opens new prospects for a cluster of modern innovative technologies, focused on natural-language information.

Educational process forms and degrees

There are full-time study, study without discontinuing work and contract forms of education. Students are currently prepared for such degrees:

  • Bachelor degree of system engineering in the area "Flexible computerized systems, automation and control” (studying period is 4 years);
  • Master degree of computer systems specialty "Flexible computerized systems and robotics” (studying period is 6 years).

After 4 years of study students have the opportunity to get qualification of marketing manager in “Industrial Marketing” for two years (evening course) in parallel with their major study. Form of parallel education is payable.

Further scientific practice for masters and engineers is available via postgraduate and doctoral study department and the Research Institute for System Technology.

Depth and versatility are the main features of education received at the Department of Technical Cybernetics. This allows graduate students to adapt in solving different problems in any sector of activity in all stages of production, construction of mathematical models and the choice of method of solution in hardware and software development at manufactures, research institutions, in banks, large variety of firms, which is extremely important in modern terms.

Areas of educational process

Material basis

The department created five classes of modern personal computers, combined in a computer network running Windows 2000 and UNIX with access to the INTERNET and to the University network.

For all years of study, students learn and apply in practice for development of integrated computer systems:

  • Languages: C + +, Pascal, Assembler
  • Visual Design Systems: Delphi, Visual Basic, Visual C + +, Visual FoxPro, Java Builder

Also students study how to work using operating environments Windows, Windows 2000, UNIX and LINUX, discover packages for the Internet browsing, learn about graphics packages, Adobe Illustrator, 3D STUDIO MAX and Corel Draw, multimedia applications, useful tools, antivirus software, archives etc.

In solving engineering problems students use mathematical packages MathCAD and MathLab, the system of automatic design of AutoCAD, PCAD, as well as modern database management systems, including Oracle, MS SQL.

Students can practically learn the latest software via obtaining international qualifications in the University Education Center of Microsoft, which operates at the Department of Technical Cybernetics since 2004.

During educational process are used:

Operating Systems: Windows, Unix, Linux; DBMS: Oracle, MS SQL, MySQL;

CAD: AutoCAD, Компас, PCAD;

Packets of document preparation: Quark Express, Page Maker;

Programming languages and environments: C#, C++, Builder, Delphi, PHP, Java, Ada, Prolog,VHDL;

Graphic Packs: 3D Studio MAX, Maya, Photoshop;

Math packages: MathCAD, MathLAB, Mathematica;

Simulation of electronic circuits: Electronics Workbench.

Areas of training:

Training is focused on such fields as:

  • research and design of flexible integrated computerized management systems in production and business;
  • creation and maintenance of flexible problem-oriented information retrieval systems and knowledge bases in the design, simulation, industrial control, commercial and financial management, environmental monitoring etc;
  • development of modeling methods supported by systems, which are based on the knowledge and the creation the combined intellectual real-time systems for industrial, technical, commercial and other uses;
  • creation of new technologies for representation and processing of knowledge in applied artificial intelligence systems in flexible computer systems;
  • development and applying hypertext systems, systems of navigation and manipulation information arrays in Internet and other large and global communication networks;
  • development and implementation of local and distributed information and computer networks and systems for banking, insurance and exchange structures;
  • modeling based on neural networks with simultaneously working problem-oriented processors and programs for solving intellectual problems in flexible computer systems.


Bachelors successfully work as:

  • heads program development;
  • project managers;
  • administrators of computer systems and networks;
  • assistants in computer science fields from the scientific, industrial and commercial banking institutions of different ownership.

Experts of this specialty are trained to work as system integrators in corporate networks, integrated computer systems for businesses and organizations. They are targeted at building artificial intelligence systems and the creation of the fifth generation of computers that can effectively perform calculations, store knowledge and communicate with users of natural language.

Training allows them to work as leading experts in the development and exploitation of:

  • telecommunication and computer networks;
  • local and distributed information systems;
  • applied Intelligent systems;
  • systems of intellectual support computerized manufacturing;
  • secure and highly reliable flexible computer systems;
  • integrated computer information processing systems;
  • hardware and software tools with elements of artificial intelligence;
  • systems for development and support of knowledge bases and databases etc.

Entrance examinations for Specialists degree in 2010 (correspondence)

1. INTEGRATED PROFESSIONAL TESTING - 02/02/2010 at 11:00 in aud. 438 build.18


1. Professional test - 01/02/2010 at 12:00 in aud. 438 build.18

Entrance examinations for Master degree in 2009:

1. Integrated professional testing - 21/07/2009 at 10:00 in aud. 438 build.18 2. Foreign language (English) - 07/20/2009 at 10:00 in aud. 734 build.18


1. Professional Testing - 17.07.2009 at 12:00 in aud. 438 build.18

2. Foreign Language - 17.07.2009 at 10:00 in aud. 734 build.18

Program of integrated test for entrance of 5 course by specialty "Flexible Computerized Systems and Robotics" at Faculty of Informatics and Computer Science in KPI in 2009


Operators. Regular types (arrays). Procedures and functions. Records and sets. Files. Dynamic data structures. Modules. The data structure and expressions. Classes of memory. Logical expressions. Control structures. Arrays and indexes. Functions. Structures. Files. Features of PC architecture. Procedures and macros. Structures and records. Multimodal program.


Set. Specification of sets. Basic concepts of set theory. Geometric interpretation of sets. Operations on the sets. Algebra of sets. The concept of relation. Specification of relations. Operations on relations. Properties of binary relations. Equivalence, tolerance and order relations. Functional relations. Algebraic operations and their properties. The concept of algebraic structure. Boolean variables and functions. Specification of Boolean functions. Duality. Laws of Boolean algebra. Disjunctive decomposition and conjunctive of Boolean functions. Minimizing of Boolean functions. Specification of graphs. Operations on graphs. Logic. Laws and identity in the logic of predicates. Predicate calculation.


The main stages of operational research. The general problem of linear programming (GLP). GLP of structure research. Simplex method. Method of simplex tables in GLP problems solution. The modified simplex method. Dual simplex method. Transport problem. Discrete programming. Method separated planes. The method of branches and bounds. Nonlinear programming. The method of Lagrange multipliers. Convex programming problem. Dynamic programming.


Basic principles of FCS. The main task of designing FCS. System approach in the design of FCS. Organizational and functional structure of FCS. Synthesis of functional structures of FMS. Technological design FMS. Classification and coding of manufacturing objects. The main ways in creation of technological groups. Construction of group operations. Identification of means for transport manufacturing objects. Definition of main equipment in FMS. Recommendations in composing FMS in FCS. Select ATSS. Arranging FMS solution. Information support FCS.

PROGRAM for entry exams for postgraduate specialty of “Automation of Control Processes”

specialty The rating for the complex index
(place at the Institute of)
2013 y. 2014 y.
Information control systems and technologies 2,54 (24) 3,22 (6)
Computer Systems and Networks 2,37 (34) 2,28 (37)
Computerized Control Systems and Automation 2,7 (18) 2,41 (31)
Computer and Robotic Systems 3,03 (8) 3,24 (5)
Software Systems - -
Software Engineering - -
For faculty 2,86 (3) 3,08 (2)

Additional information is available at: 03 056 Kyiv, Victory Avenue, 37 NTU "Kyiv Polytechnic Institute", Building 18, Room 409, 431, 437.

Template Joomla 1.6


Kyiv, Victory Avenue, 37Building 18, Room 409, 437 Phone: (044) 204-93-80 This e-mail address is being protected from spambots. You need JavaScript enabled to view it.

Template Joomla 1.6