Research and Design of Wireless Networks

Major: Computer Systems and Networks
Code of subject: 7.123.01.E.030
Credits: 4.00
Department: Electronic Computing Machines
Lecturer: Lecturer Andrii Grebeniak
Semester: 2 семестр
Mode of study: денна
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following skills and learning outcomes: - From written communication (at the level of transmitting complex information); - From oral communication (at the level of transmitting complex messages); - The ability to communicate in the first (native) language, the ability to correctly, logically and clearly build one's oral and written speech; - Possession of the necessary professional communication skills in a second (foreign) language; - Knowledge and understanding of the subject field, profession; basic concepts, basic categories, technical concepts; - Ability to continuous and active learning, self-education, continuous improvement of qualifications; - Analytical thinking (at the level of application of general analysis); - Ability to abstract thinking, analysis and synthesis; - Planning and organization (at the level of planning and organization of multi-component complex activities); - Critical thinking (at the level of formulating general strategies on multidimensional strategic issues); - Ability to find, process and analyze information from various sources; the ability to use information and communication technologies.
Required prior and related subjects: - Research and design of computer systems and networks - Network information technologies
Summary of the subject: The discipline "Research and design of wireless networks" aims to develop in students a systematic understanding of the directions of research and development of computer networks, including the latest technologies for designing universal and specialized hardware and software computer tools (including compatible ones), as well as to inculcate the ability to perform analytical work on current problems of the development of computer systems and networks. As a result of mastering the educational material of the discipline, students should understand conceptual issues and the multifaceted nature of the problem of designing wireless networks, know the principles of construction and directions of development of modern computer networks, be able to apply methods of research work in the creation and testing of the use of wireless networks. To master this discipline, knowledge of the following disciplines is necessary: ??"Research and design of computer systems and networks", "Network information technologies".
Assessment methods and criteria: Assessment of students' knowledge in the discipline "Research and design of wireless networks" is carried out in accordance with the work curriculum in the form of a semester control, which is carried out at the end of the semester and contains the results of the current control of students' knowledge, which is evaluated for the performance of laboratory work, and a control measure - an answer to the corresponding exam ticket. The control measure is a mandatory type of control and is conducted in written and oral form at the end of the semester. Current monitoring of lecture classes is carried out in order to identify the student's readiness for classes in the following forms: - a selective oral survey before the start of classes; - assessment of the student's activity in the course of classes, submitted proposals, original solutions, clarifications and definitions, additions to previous answers, etc. Control questions are divided into: a) test tasks - choose the correct answers; b) problematic – creation of problematic situations; c) questions-replies - to identify cause-and-effect relationships; d) situational tasks - to determine the answer according to a certain situation; e) issues of a reproductive nature - determination of practical significance.
Recommended books: 1. Soldatos, J. River Publishers Series in Signal, Image and Speech Processing Building Blocks for IoT Analytics Internet-of-Things Analytics Building Blocks for IoT Analytics Internet-of-Things Analytics / 2016. 2. Derhamy, H. Architectural Design Principles For Industrial Internet of ThingsLule?a, Sweden , 18. C. 285. 3. Lea, P. Internet of Things for architects?: architecting IoT solutions by implementing sensors, communication infrastructure, edge computing, analytics, and security: Packt Publishing, 2018. 524c. 4. Linan Colina, A., Vives, A., Bagula, A., et al. Internet of Things IN 5 DAYS: 2016. 227c. 5. Lee, E. A., Seshia, S. A. Introduction to Embedded Systems, A Cyber-Physical Systems Approach: MIT Press, 2017. 568c. 6. Greengard, S. The internet of things: MIT Press, 2015. 230c. 7. Vermesan, O., Friess, P. Internet of things - from research and innovation to market deployment: River Publishers, 2014. 364c. 8. Kranz, M. Building the Internet of Things Implement New Business Models, Disrupt Competitors, Transform Your Industry: Wiley, 2016. 272c. 9. Buyya, R., Dastjerdi, A. V. Internet of things?: principles and paradigms: Elsevier, 2016. 378c.