Telecommunication Systems and Networks Design

Major: System Administration of Telecommunications Networks
Code of subject: 7.172.02.O.003
Credits: 5.00
Department: Telecommunication
Lecturer: Ratych Andrii
Semester: 1 семестр
Mode of study: денна
Мета вивчення дисципліни: Special training of students in an amount sufficient for production, practical and research activities in the field of planning and design of telecommunication systems and networks
Завдання: The study of an educational discipline involves the formation of competencies in students of education: general competences: The ability to solve complex specialized tasks and laboratory problems during professional activities in the field of telecommunications, radio electronics and electronic engineering or in the learning process, which involves the application of theories and methods of designing telecommunications software platforms and is characterized by the complexity and uncertainty of conditions. The ability to be critical and self-critical to understand the factors that have a positive or negative impact on communication, and the ability to identify and take into account these factors in specific communication situations; The ability to produce new ideas, to show creativity, the ability to system thinking Acquisition of a flexible way of thinking, which makes it possible to understand and solve problems and tasks, while maintaining a critical attitude to established scientific concepts; The ability to solve problems and make appropriate informed decisions The ability to work independently and in a team, the ability to communicate with colleagues on matters of the industry regarding scientific achievements, both at the general level and at the level of specialists; Knowledge and understanding of the subject area and understanding of the profession; The ability to communicate effectively at the professional and social levels; The ability to think abstractly, the ability to analyze and synthesize, which makes it possible to formulate conclusions (diagnosis) for various types of complex management tasks, to plan, analyze, control and evaluate one's own work and the work of others Have the skills to develop and manage projects to ensure a high level of efficiency in the implementation of various types of projects in the subject area; Skills in using information and communication technologies, implementing computer programs and using existing ones; The ability to evaluate and maintain the quality of the work performed professional competences: Knowledge of theories and methods of designing modern radio technical systems Knowledge of theories and methods of designing modern telecommunication systems and networks The ability to use the mathematical apparatus of analysis and synthesis of radio engineering and telecommunication systems and networks The ability to develop and use mathematical models of radio engineering and telecommunication systems and networks at the macro and micro levels using specialized computer programs The ability to develop a complex system of information security according to the direction of professional activity Knowledge of basic specifications and regulatory documents for the design and operation of radio technical and telecommunication systems and their elements Ability to design radio engineering and telecommunication systems in accordance with current specifications and other regulatory documents Knowledge of the basics of civil security in a professional direction Ability to communicate in English at a level sufficient for conducting scientific research and performing official duties Ability to work with technical literature and search for necessary technical information Ability to administer telecommunication networks and information systems. Ability to apply network technologies and protocols in the process of development and operation of telecommunication networks. Ability to deploy software in information and telecommunication networks of enterprises, data centers and cloud environments. Ability to apply Cloud technologies for deployment of distributed service systems
Learning outcomes: Knowledge of theories and methods of designing radio engineering and telecommunication systems and networks, including basic specifications and regulatory documents to the extent necessary for solving specialized tasks and laboratory problems in the field of professional activity Knowledge in the field of civil protection in professional activities with the aim of minimizing the impact of emergency situations on the functioning of radio technical and telecommunication systems Knowledge of technologies for construction and operation of mobile communication systems and networks of 3-5 generations in an amount sufficient for their calculation and planning. Knowledge of protocols and methods of building information communication networks in an amount sufficient for carrying out professional activities Knowledge of the basics of information security of telecommunication systems Knowledge of the basics of information communication system programming in an amount sufficient for the development and support of specialized software systems Knowledge of the main specifications and normative documents for the design and operation of telecommunication systems and their elements Knowledge of routing and flow distribution algorithms and protocols in telecommunication networks to the extent necessary for their system administration Capacity for lifelong learning and continuous professional development in the workplace Ability to work in a team and present the results of one's activities The ability to apply the methodological basis for conducting scientific research in the field of radio electronics and telecommunications The ability to apply knowledge in the field of information security of radio technical and telecommunication systems and networks for planning and applying measures, making decisions on ensuring the protection of information and technical systems in the field of professional activity Ability to design systems and networks in the field of professional activity using current regulations and technical standards The ability to apply knowledge in the field of civil protection in professional activities in order to minimize the impact The ability to speak English in an amount sufficient for carrying out professional activities, writing scientific articles, reading and interpreting international technical standards The ability to administer heterogeneous local telecommunication networks based on the TCP/IP protocol stack The ability to develop specialized software systems and complexes in an amount sufficient for carrying out professional activities Ability to plan, develop and research distributed heterogeneous service systems using elements of Cloud technologies Ability to plan, develop and research IoT systems using ubiquitous computing technologies Ability to communicate, including oral and written communication in Ukrainian and foreign languages (English, German, Italian, French, Spanish); The ability to use various methods, including modern information technologies, for effective communication at the professional and social levels. The ability to realize the need for lifelong learning in order to deepen the acquired and acquire new professional knowledge; Ability to demonstrate understanding of basic environmental principles, occupational health and safety, and their application
Required prior and related subjects: Previous academic disciplines: -Design of radio engineering systems -Information security systems -Economy and enterprise management Associated and subsequent academic disciplines: -Fiber-optic devices in transmission systems -Design of telecommunication systems and networks (CP)
Summary of the subject: The educational discipline is intended for students to master the methods, techniques and tools intended for planning and designing telecommunication networks, as well as for them to master the skills of using the relevant standards and other normative and professional literature, which regulates the requirements for the performance of design work in the field of telecommunication networks.
Опис: Purpose, tasks and structure of the educational discipline. The recommended method of studying and learning the educational material. Forms and methods of control. 1. Methodology and process of network planning and design. 1.1. Analysis of business goals and constraints. Analysis of technical goals and compromises. 1.2. Characterization of the current network. Characterization of network traffic 2. Planning and design of wireless networks. 2.1. Features of wireless networks and their design. Methods of designing wireless networks. 2.2. Radio coverage for indoor wireless networks. 2.3. Radio coverage for outdoor wireless networks. 3. Planning and design of Ethernet networks. 3.1. Ethernet technologies and standards. 3.2. Ethernet transmission media. 3.3. Design of Ethernet local networks in office premises. Design of Ethernet local networks in industrial premises 3.4. Methods of evaluating the bandwidth of leading and optical fiber channels of SCS 4. Planning and design of IP networks. 4.1. IP networks and their design 4.2. Addressing and naming planning in IP networks. Using IP address translation (IPv4). 4.3. Routing in IP networks and its planning. 4.4. TCP protocol and flow control in IP networks. 4.5. Virtual private networks in IP networks. Conclusions and recommendations. Laboratory work No. 1-1. Characteristics of point emitters of radio waves Laboratory work No. 1-2 Radiation of antennas, coordination and radio coverage Laboratory work No. 1-3. Radio coverage on roads and streets Laboratory work No. 1-4. Radio coverage around buildings; influence of interference and diffraction Laboratory work No. 1-5. Radio coverage: the passage of waves through the windows and doors of buildings Laboratory work No. 1-6. Indoor radio coverage Laboratory work No. 1-7. Radio coverage: the passage of radio waves into the house Laboratory work No. 1-8. LTE radio coverage around and inside buildings Laboratory work No. 2-1. Wave processes in a two-wire line above a grounded conducting surface Laboratory work No. 2-2. Parameters of multiwire lines Laboratory work No. 2-3. Testing the parameters of eight-wire cables Laboratory work No. 2-4. Testing the characteristics of the leading SCS channel Laboratory work No. 2-5. Measurement procedures using an eye diagram Laboratory work No. 2-6. Analysis of the impact of noise in Ethernet fiber optic channels Laboratory work No. 2-7. Investigation of jitter in fiber-optic Ethernet channels
Assessment methods and criteria: Testing on topics passed (in a virtual learning environment). Protection of laboratory work in the form of a survey based on completed reports. Examination control (written component – extended answers to questions and solutions to problems, oral component – survey based on the list of questions to be studied and submitted for semester control.
Критерії оцінювання результатів навчання: Current control (PC) Tests of the student's readiness to perform laboratory work - 22 points Tests for the protection of student reports on completed laboratory work - 22 points Total per PC - 44 points Examination control written component 56 points A total of 100 points per discipline Current control consists of two components: 1) Mid-term control - conducted in the form of testing on passed topics in a virtual learning environment, for which each student receives the appropriate number of points. Each topic includes the same number of questions and is evaluated on a five-point scale. Examination control consists of a written component, which is conducted in written form in PDF format. The PDF form contains information about the student and 8 questions to which the student must provide answers. The first seven questions are test questions and are valued at 6 points, the last question at 14 points
Порядок та критерії виставляння балів та оцінок: 100–88 points – (“excellent”) is awarded for a high level of knowledge (some inaccuracies are allowed) of the educational material of the component contained in the main and additional recommended literary sources, the ability to analyze the phenomena being studied in their interrelationship and development, clearly, succinctly, logically, consistently answer the questions, the ability to apply theoretical provisions when solving practical problems; 87–71 points – (“good”) is awarded for a generally correct understanding of the educational material of the component, including calculations, reasoned answers to the questions posed, which, however, contain certain (insignificant) shortcomings, for the ability to apply theoretical provisions when solving practical tasks; 70 – 50 points – (“satisfactory”) awarded for weak knowledge of the component’s educational material, inaccurate or poorly reasoned answers, with a violation of the sequence of presentation, for weak application of theoretical provisions when solving practical problems; 49-26 points - ("not certified" with the possibility of retaking the semester control) is awarded for ignorance of a significant part of the educational material of the component, significant errors in answering questions, inability to apply theoretical provisions when solving practical problems; 25-00 points - ("unsatisfactory" with mandatory re-study) is awarded for ignorance of a significant part of the educational material of the component, significant errors in answering questions, inability to navigate when solving practical problems, ignorance of the main fundamental provisions.
Recommended books: 1. Pavlykevich M.Y, Shpur O.M. Laboratory workshop: structured cable systems from the course "Designing telecommunication systems and networks" for students of the specialty 172 "Telecommunications and radio engineering". - Lviv, 2019. – 129 pages. 2. Pavlykevich M.Y, Shpur O.M. Laboratory workshop: wireless telecommunication networks from the course "Designing telecommunication systems and networks" for students of the specialty 172 "Telecommunications and radio engineering". - Lviv, 2020. – 100 pages. 3. M.Y. Pavlykevich. Cable systems of telecommunication networks. Methodical instructions for calculation work. 8. Recommended literature Basic 1. Pavlykevich M.Y, Guskov P.O. Planning and design of telecommunication networks. 1. Calculations in the design of Ethernet cable networks. - Lviv, 2015. - 408 p. Auxiliary 1. IEEE Std 802.3™-2012 (Revision of IEEE Std 802.3-2008) IEEE Standard for Ethernet. Section One. http://standards.ieee.org/about/get/802/802.3.html 2. IEEE Std 802.3™-2012 (Revision of IEEE Std 802.3-2008) IEEE Standard for Ethernet. Section Two. http://standards.ieee.org/about/get/802/802.3.html 3. IEEE Std 802.3™-2012 (Revision of IEEE Std 802.3-2008) IEEE Standard for Ethernet. Section Three. http://standards.ieee.org/about/get/802/802.3.html 4. IEEE Std 802.3™-2012 (Revision of IEEE Std 802.3-2008) IEEE Standard for Ethernet. Section Four. http://standards.ieee.org/about/get/802/802.3.html 5. IEEE Std 802.3™-2012 (Revision of IEEE Std 802.3-2008) IEEE Standard for Ethernet.. Section Five. http://standards.ieee.org/about/get/802/802.3.html. 6. IEEE Std 802.3™-2012 (Revision of IEEE Std 802.3-2008) IEEE Standard for Ethernet.. Section Six. http://standards.ieee.org/about/get/802/802.3.html. 7. 802.16-2012 - IEEE Standard for Air Interface for Broadband Wireless Access Systems. https://standards.ieee.org/findstds/standard/802.16-2012.html 8. 802.16.1-2012 - IEEE Standard for WirelessMAN-Advanced Air Interface for Broadband Wireless Access Systems. http://standards.ieee.org/findstds/standard/802.16.1-2012.html 9. 802.16.1b-2012 - IEEE Standard for WirelessMAN-Advanced Air Interface for Broadband Wireless Access Systems Amendment 1: Enhancements to Support Machine-to-Machine Applications. http://standards.ieee.org/findstds/standard/802.16.1b-2012.html 10. 802.16n-2013 - IEEE Standard for Air Interface for Broadband Wireless Access Systems--Amendment 2: Higher Reliability Networks. https://standards.ieee.org/findstds/standard/802.16n-2013.html 11. 802.16.2-2004. IEEE Recommended Practice for Local and metropolitan area networks. Coexistence of Fixed Broadband Wireless Access Systems. http://standards.ieee.org/getieee802/download/802.16.2-2004.pdf 9. Information resources 1. http://vns.lp.edu.ua/course/view.php?id=9335 2. PTKStaM: Design of telecommunication systems and networks. Lectures. https://classroom.google.com/u/1/c/NTY1NjUyMDA1NTBa 3. PTKStaM: Design of telecommunication systems and networks. Laboratory practice. https://classroom.google.com/u/1/c/NTY4MDUwMzMxMDNa 4. PTKStaM_CFE (correspondence form of education) https://classroom.google.com/u/1/c/MTA2ODgwNzg5Nzkx
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