Specialized Protocols for Avionics Systems

Major: Avionics
Code of subject: 6.173.02.E.064
Credits: 6.00
Department: Electronics and Information Technology
Lecturer: Lavriv Orest Andriyovych
Semester: 8 семестр
Mode of study: денна
Мета вивчення дисципліни: The goal is to acquire theoretical knowledge, skills and abilities in the assimilation of modern scientific methods and technologies in the protocols of avionics systems.
Завдання: general competences: GK 1. Ability to apply knowledge in practical situations. GK 2. Ability to search, process and analyze information. GK 4. Knowledge and understanding of the subject area and understanding of professional activity. professional competences: PC 5. Ability to develop avionics of aircraft and systems of ground complexes using information technologies. PC 6. Ability to mathematically describe and model physical processes in aircraft control systems. PC 10. The ability to justify the decisions made, to work effectively autonomously and as part of a team. PC1.3. Be able to describe information processes related to avionics, analyze their immunity.
Learning outcomes: As a result of the study of the discipline, the student must be able to demonstrate the following learning outcomes: Know the standards (protocols) for information exchange channels as a collection of tools that provide the interaction of the constituent elements of the system. In a broader sense, understand the logic and physical principles of the interaction of system components, Be able to combine the basic hardware and software interfaces for channels used at different structural levels within computing units to connect functional devices and modules and inside the system to provide information exchange between individual modules. To master a set of rules, algorithms, time synchronization for data exchange between system components, as well as a set of physical and functional characteristics of connection devices that implement such interaction.
Required prior and related subjects: Electronic control system of a typical aircraft Standards and protocols of infocommunication facilities. Basics of radio electronics
Summary of the subject: Basic standards for digital data feeds. Minutes MIL-STD-1553B for military aircraft. Protocols developed by the association of mobile machinery designers (SAE) - AIR 1189 - medium-term DDB with time distribution (for multiplex systems), AS 15531 - digital time-division multiplex DDB (request / feedback), AS 5643 IEEE-1394b - digital DB for military and aerospace vehicles Protocols developed by ARINC - ARINC 573 - DDB for Flight Information Registration System; ARINC 629 - DDB for simultaneous transmission of data from several transmitters; ARINC 708 - DDB for transmitting graphic information from on-board meteorological radar station to display system. Protocols developed by IEEE - IEEE-std-1149.5 - Digital DB for testing equipment, IEEE 1355.2 - Digital low-voltage DB
Опис: Basic standards for digital data feeds. Minutes MIL-STD-1553B for military aircraft. Protocols developed by the association of mobile machinery designers (SAE) - AIR 1189 - medium-term DDB with time distribution (for multiplex systems), AS 15531 - digital time-division multiplex DDB (request / feedback), AS 5643 IEEE-1394b - digital DB for military and aerospace vehicles Protocols developed by ARINC - ARINC 573 - DDB for Flight Information Registration System; ARINC 629 - DDB for simultaneous transmission of data from several transmitters; ARINC 708 - DDB for transmitting graphic information from on-board meteorological radar station to display system. Protocols developed by IEEE - IEEE-std-1149.5 - Digital DB for testing equipment, IEEE 1355.2 - Digital low-voltage DB
Assessment methods and criteria: – Current control: practical works reports, graphic calculation papers, oral interviewing, written tests (40 %) – Final control: control procedure - written and verbal examination (60 %): written examination (test) - 40 points; oral interviewing (verbal examination) - 20 points
Критерії оцінювання результатів навчання: – Current control: practical works reports, graphic calculation papers, oral interviewing, written tests (40 %) – Final control: control procedure - written and verbal examination (60 %): written examination (test) - 40 points; oral interviewing (verbal examination) - 20 points
Recommended books: 1.Васьків Г. М. Конспект лекцій з дисципліни "Стандарти та протоколи засобів інфокомунікацій", 2. Авіоніка: навч. посіб. / В.П. Харченко, І.В. Остроумов. – К. : НАУ, 2013. -– 272 с 3. AVIONICS DEVELOPMENT AND IMPLEMENTATION Edited by CARY R. SPITZER AvioniCon, Inc. Williamsburg, Virginia, U.S.A. - p 233 4. Чужа О.О., Ситник О.Г., Хімін В.М., Кожохіна О.В. Авіаційні радіоелектронні системи. – К.: НАУ, 2017. – 264 с. 5. Грибов В.М. Техническое диагностирование авионики. Модуль 2-2. Средства диагностирования (бортовые встроенные, лабораторные, стендовые). – К.: НАУ, 2017. – 263 с. 6. Скрипець А.В. Авіаційно-технічний тлумачний словник-довідник з цивільної авіації. У 2-х томах.– К.: НАУ, 2016. – Т.2. – 736 с. 7. 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. 8. Drony : ilustrowany przewodnik po bezzalogowych pojazdach powietrznych i podwodnych / Martin J. Dougherty ; przeklad Jerzy Majszczyk, Warszawa : Bellona cop. 2016 233 s. 9. Распопов В. Я. Микросистемная авионика [Текст] / В.Я. Распопов. – Тула. «Гриф и К», 2010. – 248 с