Current Operation Methods and Their Application in Electrical Engineering Systems

Major: Automation and Computer-Integrated Technologies
Code of subject: 8.151.00.M.015
Credits: 3.00
Department: Electromechatronics and Computerized Electromechanical Systems
Lecturer: Doctro of Science, profesor Mrushchak Yaroslav
Semester: 2 семестр
Mode of study: денна
Learning outcomes: 1. Ability to demonstrate systematic knowledge of modern research methods in the field of power engineering, electrical engineering and electromechanics; 2. Ability to demonstrate in-depth knowledge in the chosen field of research; 3. Ability to apply knowledge and understanding to solve problems of synthesis and analysis of elements and systems characteristic of the chosen field of research; 4. Ability to apply a systematic approach, integrating knowledge from other disciplines and taking into account non-technical aspects, while solving theoretical and applied problems of the chosen field of research; 5. Ability to work effectively both individually and as a team; 6. Ability to independently perform experimental research and apply research skills; 7. Ability to assess the feasibility and feasibility of new methods and technologies in the synthesis of power, electrical and electromechanical systems; 8. Ability to argue the choice of methods for solving scientific and applied problems, critically evaluate the results and defend the decisions made; 9. Ability to treat the work responsibly and achieve the goal in compliance with the requirements of professional ethics.
Required prior and related subjects: Pre-requisites - Analytical and numerical research methods - Methods of synthesis and analysis of automatic control systems Co-requisites - System analysis and methods of object identification
Summary of the subject: Control models based on H2 and H-infinity metrics. Ricсati's approach to the problems of synthesis of H2 and H-infinity - the optimal regulators. Anisotropic rate of synthesis of anisotropic regulators. General questions of synthesis of systems of automatic control by methods of differential geometry. Adaptive systems. Fundamentals of game theory and game approaches in the management of dynamic systems.
Assessment methods and criteria: - reports on laboratory work, oral examination (30%) - control measure: exam, written and oral form (70%).
Recommended books: 1. Лозинський О.Ю. Синтез лінійних оптимальних динамічних систем. Навчальний посібник / [О.Ю. Лозинський, А.О. Лозинський, Я. Ю. Марущак, Я. С. Паранчук, В.Б. Цяпа] / Львів: Видавництво Національного університету “Львівська політехніка”, 2016. – 392 с. 2. Методы классической и современной теории автоматического управления: Учебник в 3-х тт.Т.3: Методы современной теории автоматического управления. Под редакцией Н.Д. Егупова. М.: МГТУ им. Н.Э. Баумана 2000. – 747 с. 3. Аграчев А.А. Геометрическая теория управления: Учебник / А.А. Аграчев, Сачков Ю.Л. – М.: ФИЗМАТЛИТ, 2005. – 392 с. 1. Каленюк П. І. Диференціальні рівняння. Навчальний посібник / [П. І. Каленюк, Ю. К. Рудавський, Р. М. Тацій, та ін.] / Львів: Видавництво Львівської політехніки, 2014. – 380 с. 4. MIT OpenCourseWare. System Identification. – Режим доступу https://ocw.mit.edu/courses/electrical-engineering-and-computer-science/6-435-system-identification-spring-2005/index.html 5. System Identification Toolbox пакету MATLAB. – Режим доступу: www.mathworks.com/products/sysid/