system. Selection corrective devices using frequency characteristics. Methods of evaluation of the
quality of automatic control systems. Determining the equation of state for the transformation of
functions of systems and vice versa. Investigation of the stability of ACS direct (second) by AM
Lyapunov.
Expected results: In the process of studying the discipline, students should examine the state of the
subject, its methodology, use of systems engineering methods in solving the problem of synthesis of
modern ACS, ACS modern design, to correctly interpret the results.
Post requisites: "Decision theory", "Fundamentals of computer simulation", "Organization of
computers and computer systems," as well as the discipline imposed by the university council.
OS3214.1 Fundamentals of Systems Engineering, 3 credits
Prerequisites: "The theory of probability and mathematical statistics", "Informatics", "Theory of
electrical
circuits."
The purpose of the study: The purpose of teaching the subject "Fundamentals of Systems
Engineering" is the study of the foundations of automation at the present stage of technological
progress. Communication of Informatics and Management; the general principles of system
organization. Basic concepts and definitions. The object and the control system. The content
production management tasks; goals and quality control criteria. Functional diagram of the ACS.
One
option
ACS
classification.
Examples
of
information
and
control
systems.
Summary: General principles of system organization. The content production management tasks.
Methods and system devices. The basic principles and laws of the ACS. Typical dynamic links of
ACS. Functions conversion systems. Algebra structural transformation. Image SAU by the spatial
conditions. Linearization equations. Time and frequency characteristics of typical units and their
construction. Algebraic stability criteria Hurwitz, Lienard-Shepherd and Routh. Frequency stability
criteria Mikhailov and Nyquist. The logarithmic criteria. Controllability and observability of the
system. Selection corrective devices using frequency characteristics. Methods of evaluation of the
quality of automatic control systems. Determining the equation of state for the transformation of
functions of systems and vice versa. Investigation of the stability of ACS direct (second) by AM
Lyapunov.
Expected results: In the process of studying the discipline, students should examine the state of the
subject, its methodology, use of systems engineering methods in solving the problem of synthesis of
modern
ACS,
ACS
modern
design,
to
correctly
interpret
the
results.
Post requisites: "Decision theory", "Modelling of information processes and systems",
"Organization of computers and computer systems," as well as the discipline imposed by the
university council.
ET2210 Theory of electrical circuits, 3 credits
Prerequisites: Physics
The purpose of the study: The theoretical and practical training are not electrical specialties in the
field of general electrical engineering and electronics to the extent that they can select the required
electrical, electronic, electrical devices and be able to properly operate and constitute, together with
the specialists electricians, technical specifications for the development of electric parts of
automated
systems
for
industrial
process
control.
Summary: The concepts and laws of electrical circuits. Conversion of electrical circuits. Methods
for calculating the electrical circuits in the DC mode. Linear electric circuits. Methods of
representation of harmonic oscillations. Series and parallel connection RLC-elements. Inductively
coupled elements. The frequency characteristics of electrical circuits. Complex transfer functions.
Transients in linear electric circuits. Frequency method of transient analysis. The main theorem of
spectral analysis. Quadruple. Nonlinear circuits. Electric filters, classification, synthesis.
Expected
results:
on
the
principles
of
formation
of
electrical
circuits;
-
Principles
for
the
creation
of
electronic
systems;
- Principles of operation of electromagnetic devices, transformers, electrical machines, electronic
and electrical appliances.
Should know and be able to use: methods of calculating the DC circuit, single-phase and three-
phase linear electric circuits with sinusoidal current; basic principles of electronic and
electromagnetic
devices,
and
devices
used
in
laboratories
and
production.
c) hold:
- Methods of analysis of electric and magnetic circuits;
- Methods of measurement of electrical characteristics of the elements of electrical circuits;
- Methods of analysis and calculation of simple electronic circuits;
d)
have
experience
of:
-
Performance
and
reading
of
electrical
circuits;
- Verification of measuring instruments and control, measurement of parameters of typical elements
of
electronic
devices;
-
Calculation of electric circuits,
electric drive systems
and electronic devices.
Post requisites: Fundamentals of operations research, decision theory.
OPP3216 Organization and planning of production, 3 credits
Prerequisites: Ecology and Sustainable Development, Fundamentals of Management Theory
The purpose of the study: The subject and discipline problems "Economics and production
management". Management of the enterprise. Design of the organizational structure, internal and
external organization Wednesday. Characteristic features and production management methods.
The economic essence of the composition and structure of the main assets of the company.
Summary: The main objectives of the discipline, students should learn the general concepts,
definitions, basic provisions of the economic theory and practice of organization and management
of the enterprise. The discipline includes the following sections: Theoretical basics, the essence and
principles of market formation. "Economics and production management" subject and discipline
problems. Management of the enterprise. Design of the organizational structure, internal and
external organization Wednesday. Characteristic features and production management methods.
The economic essence of the composition and structure of the main assets of the company.
Formation of the working capital of the enterprise, its composition, structure and regulation.
personnel and labor management organization. Fundamentals of management of production
processes
in
the
enterprise.
Expected results: The knowledge students contribute to the assimilation of courses such as
strategic planning, global economics, management, finance and credit, etc .; as well as the
successful
passage
educational
and
industrial
practice.
Post requisites: Results of the study of theoretical and practical questions used in the development
PSIS4222 Software of information systems, 3 credits
Prerequisites: "Informatics", "Algorithmization, data structures and programming", "Bases of
information systems".
Study purpose: The purpose of teaching discipline "Software of information systems" to teach
students to one of key development stages of information systems is to a choice and design of the
software of an information system.
Summary: Classification of software. General information about system, instrumental and an
application software. System software. Review of the modern operating systems. Architecture of an
operating system. Executions of applications. Multitasking. Multithreading. Applied programming
interfaces. System utilities. Instrumental software. Methods and technologies of development of
programs. Systems of automation of programming. Classification and review of an application
software.
The expected results: As a result of studying of discipline students have to:
- to know features of classification of the software, structure system, instrumental and the
application software (software);
- to have practical skills of use;