Subjects

Dynamic systems control

Course: Software Engineering

Structural unit: Faculty of Computer Science and Cybernetics

Title

Dynamic systems control

Code

Module type

Обов’язкова дисципліна для ОП

Educational cycle

First

Year of study when the component is delivered

2021/2022

Semester/trimester when the component is delivered

3 Semester

Number of ECTS credits allocated

Learning outcomes

LO01. Analyze, purposefully search for and select the necessary information and reference resources and knowledge to solve professional problems, taking into account modern advances in science and technology.

Form of study

Full-time form

Prerequisites and co-requisites

To successfully study the discipline the student must meet the following requirements: 1. Know theoretical information on mathematical analysis, discrete mathematics, algebra, optimization methods, analytical geometry, physics, mechanics, the basics of various software packages. 2. Be able to: find derivatives, calculate integrals, solve systems of linear algebraic equations with parameters, have methods of matrix algebra, use the basic laws of physics, use packages of mathematical programs 3. Have the skills: independent and collective work in solving mathematical problems, in English at a level not lower than Intermediate.

Course content

The purpose of the discipline - introduction to methods for solving different types of ordinary differential equations, partial differential equations, systems of differential equations, formulation and solution of Cauchy problems; mastering the basic theoretical principles of control theory, principles and methods of solving problems related to the control of complex systems and mastering practical skills in solving control problems.

Recommended or required reading and other learning resources/tools

1. Khusainov D.Ya., Byckov O. Dyferentsialni rivniannia. Navchalnii posibnyk. – K. VPTs “Kyiv University” - 2001. – 132 p. 2. C. Henry Edwards, David E. Penny. Differential Equations and Boundary Value Problems. Computing and Modeling. - Prentice Hall, Inc., - 2004. 3. Krak Yu., Shatyrko A. Teoriia keruvannia dlia informatykiv. Pidruchnyk. – K. - VPTs “Kyiv University” - 2015. – 175 p.

Planned learning activities and teaching methods

Lectures, laboratory classes, independent work.

Assessment methods and criteria

Semester assessment: A maximum number of points that can be obtained by a student: 60 points: Test work №1: - 20/12 points. Test work № 2: - 20/12 points. Current evaluation - 20/12 points. Final assessment in the form of an exam.

Language of instruction

Ukrainian