Global Information Infrastructure

Major: System Administration of Telecommunications Networks
Code of subject: 7.172.02.O.1
Credits: 5.00
Department: Telecommunication
Lecturer: PhD. Shpur Olha
Semester: 1 семестр
Mode of study: денна
Learning outcomes: • Know and understand operation and technology of GII; • Be able to make design specifications, requirements, applications and other documents; • Know the modern innovative technologies in the field of GII; • Be able to perform profiles research of different network architectures interaction and technologies of GII; • Be able to create a perspective network according to the Program for Informatization of Ukraine; • Be able to use the acquired knowledge of architecture and GII scenarios in practice.
Required prior and related subjects: • Communication networks, Part 1, Part 2; • Theory of implementation and protocols for infocommunication networks; • Distributed service systems and cloud technologies • Planning and design of Telecommunication networks.
Summary of the subject: The concept of global information infrastructure; The fundamental building blocks of services; The architecture of global networks; Basic standards and profiles of open systems; Profiles on the Internet; Network synchronization.
Assessment methods and criteria: Defense of practical works in the form of a survey based on completed reports. Examination control (written component – extended answers to questions, oral component – survey based on the list of questions to be studied and submitted for semester control.)
Recommended books: 1. Building Multiservice Transport Networks / [J. Durkin, J. Goodman, R. Harris and other]. – Indianapolis: Cisco Press, 2006. – 576 р. 2. Oppenheimer P. Top-Down Network Design Second Edition / Priscilla Oppenheimer. – Indianapolis: Cisco Press, 2004. – 600 p. 3. Szigeti T. End-to-End QoS Network Design / T. Szigeti, C. Hattingh. – Indianapolis: Cisco Press, 2004. – 768 p.

Global Information Infrastructure (курсова робота)

Major: System Administration of Telecommunications Networks
Code of subject: 7.172.02.O.6
Credits: 2.00
Department: Telecommunication
Lecturer: Ph.D. Shpur Olha
Semester: 1 семестр
Mode of study: денна
Learning outcomes: 1. Ability to design systems and networks in the field of professional activity using current regulations and technical standards. 2. Knowledge of software platforms and technologies of their application for development of specialized software of information communication networks. 3. Ability to develop specialized software systems and complexes to the extent sufficient for professional activities. 4. Ability to plan, develop and research distributed heterogeneous service systems using elements of Cloud technologies. 5. Knowledge of the basics of system programming of infocommunications to the extent sufficient for the development and maintenance of specialized software systems.
Required prior and related subjects: Embedded systems Infocommunication networks Operating Systems Workshop on the development of software platforms for information and communication systems
Summary of the subject: The course work is designed to form and develop skills and abilities to design and develop distributed information systems. The explanatory note to the course work should contain textual and illustrative material. The project implementation period is one semester (16 weeks). The standard time allocated to a student to perform the work is 60 hours.
Assessment methods and criteria: 1. Current control in the form of checking by the teacher of parts of the course project (course work) according to the description of stages of performance of the course project (course work) (45%). 2. Checking the text and graphic part of the course work for academic integrity (15%) 3. Final control in the form of defense of the course project (course work). (40%)
Recommended books: 1. Andrew S. Tanenbaum, Maarten Van Steen, "Distributed Systems: principles and paradigms" (2nd edition). 2. Coulouris et а1., Distributed Systems — Concepts and Design. 3. Chow and Johnson, Distributed Operating Systems and Algorithms 4. Mullender, Distributed Systems, 2nd ed. 5. Verissimo and Rodrigues, Distributed Systems for Systems Architects 6. https://habrahabr.ru/post/185636/ 7. http://citforum.ck.ua/database/kbd96/45.shtml 8. http://www.inf.ed.ac.uk/teaching/courses/ds/coursework.pdf 9. https://www.overleaf.com/articles/assessed-coursework-rmi-and-udp/gwdqpdfbynhp/viewer.pdf