Information Theory and Coding

Major: Information and Communication Systems
Code of subject: 6.126.02.O.022
Credits: 7.00
Department: Telecommunication
Lecturer: Ph.D. Associate Professor Burachok Roman Adamovich
Semester: 4 семестр
Mode of study: денна
Learning outcomes: As a result of studying the discipline, the student must be able to demonstrate the following learning outcomes: Knowledge of terminology, processes and naming in information transmission systems. Knowledge of properties and requirements for information transmission systems. Knowledge of mathematical methods of code design. Knowledge of typical structures of encoders / decoders and information transmission systems in general. Ability to develop schemes of encoders / decoders and information transmission systems in accordance with the requirements of efficiency and optimality of their operation. Ability to ensure the security of data transmission under external interference. Ability to ensure the reliability and quality of encoders / decoders and information transmission systems under significant external interference. The study of the discipline involves the formation and development of students' competencies: general: Knowledge of the basics of designing information transmission systems, encoders / decoders of radio and telecommunication systems. Ability to develop and apply measures to improve the security of data transmission of radio and telecommunications systems. Ability to work with technical literature and search for the necessary technical information. Ability to maintain the acquired knowledge and skills at a level that corresponds to the modern development of science and technology in the field of professional activity. professional: Knowledge of code design methods. Knowledge of the basics of construction and operation of information transmission systems, existing schemes of encoders / decoders of radio and telecommunication systems. Knowledge of methods and ability to test the characteristics of existing communication channels. Ability to apply mathematical methods of code design in order to create encoders / decoders and their use in information transmission systems to obtain optimal indicators of reliability of data delivery to end users of telecommunications and radio systems. Ability to develop specialized schemes of encoders / decoders and data transmission systems. Knowledge of means and environments of designing coder / decoder schemes and data transmission systems. Ability to design coders / decoders and data transmission systems according to defined requirements of communication channel characteristics, magnitude and intensity of interference. Knowledge of the basics of interaction of designed and existing schemes of encoders / decoders and data transmission systems. The learning outcomes of this discipline detail the following program learning outcomes: Ability to apply knowledge in the field of coding and transmission of information in radio and telecommunications systems and networks. Ability to apply knowledge to the design of encoding / decoding devices and means of information transmission in order to ensure the optimal value of information protection and technical systems under the influence of external adverse factors. Ability to design systems and networks in the field of professional activity using current regulations and technical standards. Ability to have the necessary terminology to the extent sufficient for professional activities, writing scientific articles, reading and interpretation of domestic and international technical standards. Knowledge of the theory and methods of coding and design of coder and decoder circuits to the extent necessary to solve specialized problems and practical problems in the field of professional activity. Ability to apply the methodological basis for research in the field of information transmission systems, coding and decoding systems. Ability to design systems in the field of professional activity using current international and domestic regulations and standards. Ability to learn throughout life and continuous training in the workplace. Ability to reconfigure information transmission systems in accordance with the requirements of quality transmission and to select and optimize the necessary encoding / decoding systems when changing the characteristics of communication channels. Knowledge of the characteristics and basics of testing communication channels to the extent necessary for professional activities in the field of optimal coding. Have knowledge of the functioning of established and existing systems for transmission and encoding / decoding of information. The ability to design information transmission systems is optimal for certain characteristics of communication channels. Have sufficient knowledge to be able to create hardware and software implementation of coding systems. Ability to develop specialized systems and data transmission systems in a volume sufficient for professional activities. Knowledge of protocols to ensure reliable transmission of information.
Required prior and related subjects: Prerequisites: Fundamentals of information technology Circuitry of information systems System programming Co-requisites: Embedded systems Information systems programming technologies, part 1
Summary of the subject: The discipline is devoted to the study of basic technologies and methods of encoding information when processed in separate IS subsystems, using the basic principles of information theory.
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. Р. А. Бурачок, М. М. Климаш, Б. В. Коваль Телекомунікаційні системи передавання інформації. Методи кодування. Львів: Видавництво Львівської інформації, 2015. - 471 с. 2. Блейхут Р. Теория и практика кодов, контролирующих ошибки. М.: Мир, 1986. – 576 с. 2. Жураковський Ю. П., Полторак В. П. Теорія інформації та кодування. К.: Вища шк., 2001. – 255с. 3. Кузьмин И. В., Кедрус В. А. Основы теории информации и кодирования. К. Вища шк. Головное изд – во, 1986, 238с.