Operation of Unmanned Aerial Vehicles

Major: Avionics
Code of subject: 6.173.02.E.058
Credits: 4.00
Department: Electronics and Information Technology
Lecturer: Ph.D., associate professor Chumakevych Viktor Oleksandrovych
Semester: 6 семестр
Mode of study: денна
Мета вивчення дисципліни: As a result of the study of the discipline, the student must be able to demonstrate the following learning outcomes: - to know the basic tasks, classification, location and basic characteristics of aircraft control elements and systems; - analyze and optimize the properties of avionics systems based on the use of their equivalent models; to synthesize structural diagrams of avionics. - to know the basic electronic control system of a typical aircraft, to have the basic principles, characteristics, composition and positioning on an aircraft of electronic control systems, their schematic and constructive execution, modes of operation, methods of use and maintenance; - to be able to analyze and investigate the modes of work of elements and systems of electronic control; use the obtained theoretical knowledge and skills in different state situations; - mastering methods and methods of drawing up structural schemes of automatic control systems
Завдання: As a result of the study of the discipline, the student must be able to demonstrate the following learning outcomes: - to know the basic tasks, classification, location and basic characteristics of aircraft control elements and systems; - analyze and optimize the properties of avionics systems based on the use of their equivalent models; to synthesize structural diagrams of avionics. - to know the basic electronic control system of a typical aircraft, to have the basic principles, characteristics, composition and positioning on an aircraft of electronic control systems, their schematic and constructive execution, modes of operation, methods of use and maintenance; - to be able to analyze and investigate the modes of work of elements and systems of electronic control; use the obtained theoretical knowledge and skills in different state situations; - mastering methods and methods of drawing up structural schemes of automatic control systems
Learning outcomes: As a result of the study of the discipline, the student must be able to demonstrate the following learning outcomes: - to know the basic tasks, classification, location and basic characteristics of aircraft control elements and systems; - analyze and optimize the properties of avionics systems based on the use of their equivalent models; to synthesize structural diagrams of avionics. - to know the basic electronic control system of a typical aircraft, to have the basic principles, characteristics, composition and positioning on an aircraft of electronic control systems, their schematic and constructive execution, modes of operation, methods of use and maintenance; - to be able to analyze and investigate the modes of work of elements and systems of electronic control; use the obtained theoretical knowledge and skills in different state situations; - mastering methods and methods of drawing up structural schemes of automatic control systems
Required prior and related subjects: Fundamentals of aviation Automatic control theory Elemental base of electronic devices
Summary of the subject: Coordinate systems of the aircraft. Complexes of on-board equipment are functionally linked to the system of sensors and airborne computer. The theoretical foundations and schemes of the construction of aircraft flight stabilization systems and Flight Management system (FMS) . Provides skills in practical analysis and design of control systems. Fundamentals of the construction and operation of on-board computer systems and calculators
Опис: Coordinate systems of the aircraft. Complexes of on-board equipment are functionally linked to the system of sensors and airborne computer. The theoretical foundations and schemes of the construction of aircraft flight stabilization systems and Flight Management system (FMS) . Provides skills in practical analysis and design of control systems. Fundamentals of the construction and operation of on-board computer systems and calculators
Assessment methods and criteria: - written reports on practical training (25%), oral questioning, testing, individual task (20%) -Second control (55%, control measure, exam): written-oral form (55%)
Критерії оцінювання результатів навчання: ESCT
Recommended books: 1. Синєглазов В.М., Філяшкін М.К. Автоматизовані системи управління повітряних суден: підручник для студ. вищих навч. закл., що навч. за спец. "Комп'ютерно-інтегровані технологічні процеси і виробництва" та "Системи управління та автоматика". К. : НАУ, 2003. 502 с. 2. С. С. Ільєнко та ін. Функціональні автоматизовані системи та комплекси повітряних суден: навч. посіб. Київ: НАУ, 2019. 158 с. 3. Рогожин В. О., Синєглазов В. М.,, Філяшкін М. К. Пілотажно-навігаційні комплекси повітряних суден: підруч. К: НАУ, 2005 316 с. 4. Кузнецов С.В., Гусев А.А. Системы автоматического управления полётом. Методические указания по изучению дисциплины и контрольные задания. М.: МГТУ ГА, 2004. 48 с. 5. Скрипець А.В., Єгоров С.Г., Бєлов М.А., Яппаров А.Н., Тризна О.О. Регіональний/магістральний літак та його авіоніка: навч. посібник. – К.: НАУ, 2016. - 352 с. 6. Распопов В. Я. Микросистемная авионика – Тула. «Гриф и К», 2010. – 248 с. 7. AVIONICS DEVELOPMENT AND IMPLEMENTATION Edited by CARY R. SPITZER AvioniCon, Inc. Williamsburg, Virginia, U.S.A. - p 233