ECE: Electrical & Computer Engineering

ECE 6564 Multimedia Networking

Fall 2016 textbook list

The Fall 2016 ECE textbook list is available online for students.

Current Prerequisites & Course Offering

For current prerequisites for a particular course, and to view course offerings for a particular semester, see the Virginia Tech Course Timetables.

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ECE 6564 Multimedia Networking (3C)

This course examines and explores recent advances in multimedia networking technologies. Major topics include multimedia compression and standards, quality of service (QoS) support mechanisms and protocols, performance analysis, network calculus, IP multicasting, Internet multimedia applications, and multimedia transport over wireless networks.

What is the reason for this course?

Multimedia networking is an important area in network engineering. There has been an explosive growth in research and wide application (voice, data, images and video) in recent years. This course addresses how to transport various types of media over wired and wireless networks with required QoS. In order to understand the principles, applications and future developments of multimedia networking, a number of key concepts, technologies, and design issues have to be studied and addressed. This course aims to provide the essential background for graduate students to understand the concepts and master technologies underlying multimedia networks, therefore enabling students to be prepared to design new network architectures, protocols, and algorithms to support multimedia information as future technology further evolves.

Typically offered: Fall. Program Area: Computers.

Prerequisites: 5565.

Why are these prerequisites or corequisites required?

The prerequisite is ECE/CS 5565. Students should have solid knowledge of the principles of computer systems and networks such as the TCP/IP protocol suite. They should also have a solid background and knowledge of probability theory. Working knowledge of operating systems and simulation skills is also expected.

Department Syllabus Information:

Major Measurable Learning Objectives:
Course Topics
Topic Percentage
Introduction 5%
Multimedia compression and standards 5%
Network services and protocols (DiffServ; IntServ, RSVP; RTP, RTCP and SIP) 20%
QoS mechanisms (scheduling, admission control) 15%
Resource allocation 10%
Performance analysis, network calculus 10%
IP multicasting techniques 10%
End system support 10%
Multimedia over wireless networks 15%

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