INTERNATIONAL BURCH UNIVERSITY
Graduate Study - Faculty of Engineering and Natural Sciences
3+2 Information Technology Master
2012-2013

SYLLABUS
Code Name Level Year Semester
CEN 585 Advanced Computer Networks Graduate 1 Fall
Status Number of ECTS Credits Class Hours Per Week Total Hours Per Semester Language
7.5 0 English

Instructor Assistant Coordinator
Abdülhamit Subaşı, Prof. Dr. Abdülhamit Subaşı, Prof. Dr.
[email protected] no email

COURSE OBJECTIVE
The goal of this course is that the student will develop an understanding of the underlying structure of networks and how they operate. At the end of this course a student should be able to:
1.Explain basic networking concepts by studying client/server architecture, network scalability, geographical scope, the Internet, intranets and extranets.
2.Identify, describe and give examples of the networking applications used in everyday tasks such as reading email or surfing the web.
3.Describe layered communication, the process of encapsulation, and message routing in network equipped devices using appropriate protocols.
4.Design and build an Ethernet network by designing the subnet structure and configuring the routers to service that network.
5.Manage network management and systems administration.
6.Construct a patch cord to connect a host computer to a network.

COURSE CONTENT
Week
Topic
  1. Introduction: Data communications concepts; networking criteria; protocols & standards; standards organizations.
  2. Basic Concepts: Line configuration; topology; transmission mode; categories of network; internetworks.
  3. Reference models: The ISO/OSI model; protocol layers; the TCP/IP protocol suite and reference model
  4. Signals: Analog & digital data; periodic and aperiodic signals; simple analog signals; time and frequency domains; frequency spectrum and bandwidth; digital signals.
  5. Transmission Media: Guided media; unguided media; transmission impairment; throughput; propagation speed; propagation time; wavelength; Shannon capacity.
  6. Multiplexing: FDM; TDM; the telephone system; DSL.
  7. Error Detection and Correction: Error types; detection process; VCR; LRC CRC; checksum; error correction.
  8. Data Link Control: Line discipline; flow control; error control.
  9. Data Link Protocols: Asynchronous protocols; synchronous protocols; character oriented protocols; bit oriented protocols; link access protocols

  1. Local Area Networks: Project 802; Ethernet and its variants.
  2. Networking and Internetworking Devices: . Repeaters; routers; bridges; gateways.
  3. TCP/IP Protocol Suite: Internet Protocol; addressing; other network layer protocols (ARP; RARP;ICMP; IGMP). Transport Layer protocols (UDP; TCP).
  4. Project Presentation
  5. Project Presentation

LABORATORY/PRACTICE PLAN
Week
Topic

    TEACHING/ASSESSMENT
    Description
    • Lectures
    • Practical Sessions
    • Presentation
    • Project
    Description (%)
    Method Quantity Percentage (%)
    Project25
    Presentation25
    Final Exam150
    Total: 100
    Learning outcomes
    • Demonstrate a systematic and critical understanding of the theories, principles and practices of computer networks;
    • Critically review the role of a “professional computer network practitioner” with particular regard to an understanding of legal and ethical issues;
    • Creatively apply contemporary theories, processes and tools in the development and evaluation of solutions to problems and product design
    • Actively participate in, reflect upon, and take responsibility for, personal learning and development, within a framework of lifelong learning and continued professional development;
    • Present issues and solutions in appropriate form to communicate effectively with peers and clients from specialist and non-specialist backgrounds;
    TEXTBOOK(S)
    • William Stallings, Data and Computer Communications, Pearson, 2009

    ECTS (Allocated based on student) WORKLOAD
    Activities Quantity Duration (Hour) Total Work Load
    Lecture (14 weeks x Lecture hours per week) 0
    Laboratory / Practice (14 weeks x Laboratory/Practice hours per week) 0
    Midterm Examination (1 week) 0
    Final Examination(1 week) 0
    Preparation for Midterm Examination 0
    Preparation for Final Examination 0
    Total Workload: 0
    ECTS Credit (Total workload/25): 0