Problems of non-classic optimization
Course: Applied mathematics
Structural unit: Faculty of Computer Science and Cybernetics
Title
Problems of non-classic optimization
Code
ОК.13
Module type
Обов’язкова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2022/2023
Semester/trimester when the component is delivered
1 Semester
Number of ECTS credits allocated
6
Learning outcomes
PLO2. Understanding of the principles and methods of analysis and evaluation of the range of tasks that contribute to the further development of effective use of information resources. PLO6. Be able to design and use existing data integration tools, and process data stored in different systems.
Form of study
Full-time form
Prerequisites and co-requisites
To successfully study the discipline of "Non-classical optimization problems", a student must meet the following requirements:
1. Knowledge: Theoretical foundations and methods of research of complex systems using methods of equations of mathematical physics and mathematical modeling. Principles of mathematical modeling of complex processes.
2. Skill: Solve basic problems of the theory of differential equations and mathematical physics. Create numerical methods for solving mathematical physics equations. Formulate optimization problems for solving practical problems. Apply methods of mathematical and computer modeling to study systems and build mathematical models.
3. Ownership: Programming skills. Skills in building, analyzing, and applying mathematical models when solving applied computer modeling problems.
Course content
The purpose of the discipline is to increase the level of fundamental mathematical training, and to familiarize with the main provisions of modern optimized computational methods in the problems of mathematical modeling of complex processes using singular integral equations.
Recommended or required reading and other learning resources/tools
1. Dovgiy S.A., Lifanov I.K., Cherniy D.I. Metod singulyarnikh integralnikh uravnenii i vichislitelnie tekhnologi. – K.: Yuston. – 2016. – 380 p.
2. Dovgiy S.O., Liashko S.I., Cherniy D.I. Alhorytmy metodu dyskretnykh osoblyvostei dlia obchysliuvalnykh tekhnolohii. // Kybernetyka y systemnыi analyz. 2017, № 6. pp. 147-159.
3. Matviienko V.T., Metody optymizatsii parametrychnykh system./ Volodymyr T. Matviienko, Volodymyr V. Pichkur, Dmytro I. Cherniy // Zhurnal obchysliuvalnoi ta prykladnoi matematyky., No 1 V(135) 2021. pp.151-157.
4. Polozhiy G.N. Obobshchenie teorii analiticheskikh funktsii kompleksnogo peremennogo. – K.: Izdatelstvo Kievskogo universiteta. – 1965. – 444 p.
5. I.K.Lifanov, L.N.Poltavskii, G.M.Vainikko. Hypersingular Integral Equations And Their Applications. – London, New York, Washington D.C.: «Chapman &Hall/CRC». – 2001. – 396 p.
Planned learning activities and teaching methods
Lectures, laboratory classes, independent work.
Assessment methods and criteria
The maximum number of points that can be obtained by a student is 100 points.
1. Test work No 1: 30/18 points.
2. Test work No 2: 30/18 points.
3. Current assessment: 40/24 points.
Final assessment in the form of a test:
According to paragraphs 4.6.1 and 7.1.5 of "Regulations on the organization of the educational process at the Taras Shevchenko National University of Kyiv" credit is given based on current control (see semester evaluation) as the sum of grades/points for all successfully evaluated learning outcomes; grades below the minimum threshold level are not added to the final grade. All students are allowed to take the test.
Language of instruction
English
Lecturers
This discipline is taught by the following teachers
Vasyl
Vasylovych
Begun
Complex systems modelling
Faculty of Computer Science and Cybernetics
Faculty of Computer Science and Cybernetics
Oleksandr
Ya.
Kaliuzhnyi
Complex systems modelling
Faculty of Computer Science and Cybernetics
Faculty of Computer Science and Cybernetics
Departments
The following departments are involved in teaching the above discipline
Complex systems modelling
Faculty of Computer Science and Cybernetics
Complex systems modelling
Faculty of Computer Science and Cybernetics