Fundamentals of IT and electronic engineering

Major: Telecommunications and Radio Engineering
Code of subject: 6.172.00.O.004
Credits: 4.00
Department: Electronics and Information Technology
Lecturer: Roman Holyaka
Semester: 1 семестр
Mode of study: денна
Мета вивчення дисципліни: The purpose of studying the educational discipline "Fundamentals of information technologies (IT) and electronic engineering" is to acquaint students with the generalized concepts of information technologies, electronic engineering, radio engineering and telecommunications, which contributes to the formation of an integrated vision of the educational process and professional activity in the specialty 6.172.00 "Telecommunications and radio equipment".
Завдання: The study of an educational discipline involves the formation of competencies in students of education: general competences: ZK 2. Ability to apply knowledge in practical situations. ZK 3. Ability to plan and manage time. ZK 5. Ability to communicate in the state language both in writing and orally. ZK 6. Ability to work in a team. ZK 7. Ability to learn and master modern knowledge. ZK 9. Skills of performing safe activities. ZK 10. Efforts to preserve the environment. ZK 11. The ability to realize one's rights and responsibilities as a member of society, to realize the values of a civil (free, democratic) society and the need for its sustainable development, the rule of law, the rights and freedoms of a person and a citizen in Ukraine. ZK 12. The ability to preserve and multiply moral, cultural, scientific values and achievements of society based on understanding the history and patterns of development of the subject area, its place in the general system of knowledge about nature and society and in the development of society, techniques and technologies, use different types and forms of motor activity for active recreation and leading a healthy lifestyle. professional competences: FC 1. The ability to understand the essence and significance of information in the development of a modern information society. FC 2. The ability to solve standard tasks of professional activity on the basis of information and bibliographic culture with the use of information and communication technologies and taking into account the main requirements of information security. FC 3. Ability to use basic methods, methods and means of obtaining, transmitting, processing and storing information. FC 11. Ability to compile normative documentation (instructions) for operational and technical maintenance of information and telecommunication networks, telecommunication and radio technical systems, as well as test programs. FC 12. Ability to carry out work on managing the load flows of information and telecommunication networks. FC 13. Ability to organize and carry out occupational health and safety measures in the process of operation, maintenance and repair of information and telecommunication network equipment, telecommunication and radio engineering networks.
Learning outcomes: By the end of the study, learners are expected: - to know basics of Information Technology and Electronics Engineering (IT&EE); - comprehend the fundamentals of electronic components and devices; - to know basics of binary numeral system and logics; - demonstrate knowledge and skills of programming Arduino based systems; - know types and principals of sensors, actuators, integrated circuits; - demonstrate knowledge and skills of using electronics in various areas; - demonstrate knowledge of recent trends in ІТ&ЕІ.
Required prior and related subjects: -
Summary of the subject: The program of the study discipline "Fundamentals of IT and electronic engineering" is designed for students of the Institute of Telecommunications, Radio Electronics and Electronic Engineering who are studying in the specialty 6.172.00 "Telecommunications and Radio Engineering". As a result of successful study according to the course program, the student will learn generalized ideas about the functioning and application of hardware and software of radio electronics in various branches of the modern information society - telecommunication networks, energy, robotics, motor vehicles, avionics, means of ecology and protection, biomedical equipment, artificial intelligence devices, virtual and augmented reality, etc. The subject of the course includes: the basics of information technologies, basic principles of radio engineering, microprocessors and embedded systems (using the Arduino platform as an example), modeling (using SPICE, MicroCap as an example), radio electronics components, technologies and structures of micro- and nanoelectronics, sensors and actuators, signals, analog and digital circuitry, interfaces, programmable systems on a crystal, components of microwave (high frequency) technology, communication standards, human-machine interface devices. The concepts of Industry 4.0 (Industry 4.0), Internet of Things (IoT), Smart (smart), in particular - smart house, smart city, smart car, smart medicine, smart industry, etc. are considered. The process of developing radio electronics hardware and software is considered in a single complex (Hardware - Firmware - Software). The course has a practical orientation, giving students the opportunity to gain experience working with microprocessor hardware and software platforms, in particular Arduino, and using these platforms in various projects. Emphasis is placed on the modern trends of startups and freelancing. The study of the academic discipline involves the use of software for the Arduino platform and circuit modeling, in particular MicroCap (Evaluation Student Version). The specified software products do not require a license fee and are freely available for students. The content of the course is aimed at forming students' understanding of the general trend in the development of telecommunications and radio engineering, the ability of students to effectively use the acquired knowledge during practical classes in classrooms and when performing laboratory and independent tasks, the ability to find the necessary information in specialized literature and the Internet.
Опис: Concepts of Information Technology and Electronics Engineering (IT&EE). Trends of ITEE. Basics of ITEE. Micro and nano-electronics. Micro-Electro-Mechanical Systems (MEMS). Passive components. Active components. Sensors and actuators. Numeral system. Binary numeral system. Logic function. Digital to Analog Converters (DAC). Analog to Digital Converters (ADC). Interfaces. Microprocessors. Microcontrollers. Hardware - Firmware - Software. Models and simulation. Integrated Development Environment (IDE). Embedded systems. Programmable systems on chip. Radio. Electromagnetic waves. Modulation. Communication Standards. IT&EE in energy, robotics, biomedical engineering, auto, avionics, security, ecology, Internet of Things (IoT), Industrial Internet of Things (IIoT), virtual and augmented reality. Start-ups in IT&EE.
Assessment methods and criteria: 1) Protection of laboratory work includes demonstration of results according to an individual option, preparation of written reports for laboratory work. 2) Oral examination takes place in laboratory classes and during control work. The survey is conducted on the basis of questions from the formed lists for each laboratory work and control work. 3) Testing takes place at the National Security Service during the control event (current survey) and during the control work. 4) The test consists of a written component (test) and an oral component (individual survey).
Критерії оцінювання результатів навчання: Current control: laboratory reports, oral interviewing, written tests – 40 points (50 %). Final control: control procedure – test - written and verbal examination – 50 points (50 %).
Recommended books: 1. Основи інформатики та обчислювальної техніки : підручник / В. Г. Іванов, В. В. Карасюк, М. В. Гвозденко; за заг. ред. В. Г. Іванова. — Х. : Право, 2015. — 312 с. 2. Основи комп’ютерного проектування та моделювання РЕА. Лабораторний практикум Частина 1: лабораторний практикум / Д. В. Гаврілов, О. В. Осадчук, О. С. Звягін – Вінниця : ВНТУ, 2015. – 99 с. 3. Сучасні інформаційні технології: навчальний посібник / В. І. Косинський, О. Ф. Швець. - К. : Знання, 2012. – 319 с. 4. Прикладна інформатика: підручник / Б. С. Бусигін, Г. М. Коротенко, Л. М. Коротенко. Дніпропетровськ, 2004. – 559 с. 5. Основи робототехніки: навчальний посібник / Н.В. Морзе, Л.О. Варченко-Троценко, М.А. Гладун. – Кам’янець-Подільський : ПП Буйницький О.А., 2016. – 184 с. 6. Інформатика. Комп'ютерна техніка. Комп'ютерні технології: підручник для студ. вищ. навч. закл. / В. А. Баженов, П. С. Венгерський, В. С. Гарвона [та ін.]. - К.: Каравела, 2011. – 592 с. 7. Комп'ютерна техніка та інформаційні технології: навчальний посібник для студ. вищ. навч. закладів: рек. МОНУ / А. В. Козловський, Ю. М. Паночишин, Б. В. Погріщук. - К. : Знання, 2012. - 463 с. 8. Basic Concepts of Information and Communication Technology: Handbook / Authors: Gorana Celebic, Dario Ilija Rendulic. Project of computer e-education with open access Publisher: Open Society for Idea Exchange – 2011. http://www.itdesk. info/handbook_ basic_ict_concepts.pdf. 9. Electronics tutorials. Open source. https://www.electronics-tutorials.ws/. 10. Introduction to Electronics: An Online Text / Bob Zulinski. http://www.ece.mtu.edu/ faculty/ljbohman/onlinetext/elint200.pdf