Circuit Engineering for Information Systems

Major: Information and Communication Systems
Code of subject: 6.126.02.O.018
Credits: 5.00
Department: Telecommunication
Lecturer: D.Sc., Associate Professor, Maksymyuk Taras
Semester: 3 семестр
Mode of study: денна
Learning outcomes: Ability to design, develop, adjust and improve the system, communication and software and hardware of information systems and technologies, Internet of Things (IT), computer-integrated systems and system network structure, management of them. Ability to design, develop and use means of realization of information systems, technologies and infocommunications (methodical, information, algorithmic, technical, software and others). Ability to use modern information systems and technologies (production, decision support, data mining, etc.), techniques and techniques of cybersecurity while performing functional tasks and responsibilities. Ability to select, design, deploy, integrate, manage, administer and accompany information systems, technologies and infocommunications, services and infrastructure of the organization. Ability to apply methods and means of modern information technology for design, development and deployment of applied information systems in various fields; Ability to apply modern information technology techniques and tools for modeling, designing and developing communication systems, Web-oriented systems, smart systems, sensor systems, embedded systems, micro / nano-systems and their analogues; The ability to integrate and integrate sensor, microsystem and communication components, using their interfaces, to build information systems for monitoring and management of various technical objects.
Required prior and related subjects: Previous disciplines: 1. Discrete mathematics 2. Electronics of information systems Related and the following disciplines: 1. Embedded systems 2. Computer architecture
Summary of the subject: The discipline "Information Systems Circuits" is one of the basic disciplines in the training of specialists in the field of information and communication technologies. The discipline teaches the mathematical foundations of logic algebra, circuitry of digital devices, basic methods of synthesis of combinational, serial and pulse devices, principles of construction of generators, generators, converters of digital signals, principles of construction of storage devices and analog-to-digital converters (ADC). logic integrated circuits and microprocessors. Students should be able to apply the acquired knowledge in the synthesis of digital devices for various functional purposes, the creation of digital devices and the construction of digital machines for use in modern information and communication systems.
Assessment methods and criteria: • written reports on laboratory work, oral examination (30%) • exam control (70% control measure, exam), written-oral form (70%)
Recommended books: 1. Kashif Baig. Hackatronics Using an Arduino Multi-function Shield. / Kashif Baig // London - 2015. 301с. – стор. 150-213 2. Charles Bell. Beginning Sensor Networks with Arduino and Raspberry Pi. / Charles Bell, Paul Manning, Michelle Lowman, Tom Welsh // New York: Business Media, 2013. 407с. – стор. 51-60, 121-144, 189-241, 267-299, 303-387 3. У.Томпкінс, Дж. Уебстер. Сопряжение датчиков и устройств ввода данных с комп’ютерами IBM PC/ U. Thompkins, J. Uobster // Москва:"Мир", 1992. 297с 4. А.Л.Булычёв. В.И.Галкин, В.А.Прохоренко. Аналоговые интегральные схемы: Справ./ А.Л.Булычёв. В.И.Галкин, В.А.Прохоренко // Беларусь, 1993. 382с. 5. Интегральная электроника в измерительных устройствах В.С.Гутников Ленинград "Энегроатомиздат",1990 6. В.И.Зубчук. Справочник по цифровой схемотехнике, Киев "Техника"1990 7. С.В.Якубовский. "Цифровые и аналоговые интегральные микросхемы" Справочник. Москва "Радио и связь",1990 8. Бокселл Дж. «Изучаем Arduino. 65 проектов своими руками», 2016 9. Boloor A., Schwartz M., Shah S., Shah U., «Arduino. Building exciting LED based projects and espionage devices», 2016 10. Kurniawan A., «Arduino Programming with .NET and Sketch (Technology in action)», 2017 11. Maik Schmidt, «Arduino A Quick-Start Guide, 2nd Edition (The Pragmatic Programmers)», 2015 12. Robert Faludi, «Building Wireless Sensor Networks with ZigBee, XBee, Arduino, and Processing», 2010 13. Seneviratne P., «Building Arduino PLCs. The essential techniques you need to develop Arduino-based PLCs», 2017 14. Банци М., «Arduino для начинающих волшебников (Один дома)», 2012