[ Announcements | Handouts ]
InstructorProfessor A. Zakhor
Fridays: 10:00 - 12:00
558 Cory Hall
Handouts not picked up during lectures can be found with the course secretary
papers 1 and 2
Method of Handling Packet Loss for Multimedia Applications
QoS and Video Delivery
Video Streaming over DiffServ Network
Multicast for video streaming
Wireless Video Streaming
Overlay Network and Data Transmission over Wireless
Y. Wang, J. Ostermann, Y. Zhang, "Video Procesing and Communications", Prentice Hall, 2001
M. Sun and A. Reibman, "Compressed Video over Networks", Marcel Dekker, 2001.
Z. Wang, "Internet QoS", Morgan Kaufman, 2001.
L. Hanzo, P. Cheriman, J. Streit, "Wireless Video Communications", IEEE Press, 2001
K. Ngan, C. Yap, K. Tan, "Video Coding for Wireless Communication Systems", Marcel Dekker, 2001
D. Bull, N. Canagarajah, and A. Nix, "Mobile Multimedia Communications" Academic Press, 1999.
D. Goodman, and D. Raychaudhuri, "Mobile Multimedia Communications", Plenum, 1997.
Khalid Sayood, "Introduction to Data Compression", Morgan Kaufmann Publishers, 1996
A. N. Netravali and Barry G. Haskell, \fIDigital Pictures\fR, Plenum Press, 1995.
J. Gibson, T. Berger, T. Lookabaugh, D. Lindbergh and R. Baker, "Digital Compression for Multimedia" Morgan Kaufman, 1998.
Brad Perry et.al. "Content-Based Access To Multimedia Information From Technology Trends to State of the Art," Kluwer Academic Publishers 1999.
V.S. Subrahmanian. "Principles of Multimedia Database Systems," Morgan Kaufmann Publishers, Inc. 1998.
C. Faloutsos, "Searching Multimedia Databases by Content" Kluwer Academic Publishers, 1996.
P. Schauble, "Multimedia Information Retrieval", Kluwer Academic Publishers, 1997.
F. Fluckiger, "Understanding Networked Multimedia", Prentice Hall, 1995.
R. Steinmetz and K. Nahrstedt, "Multimedia: computing communications and applications" Prentice Hall, 1995.
F. Kuo, W. Effelsberg, and J. J. Garcia-Luna-Aceves, "Multimedia Communications", Prentice Hall, 1998.
Outline of Topics
Introduction: What is Multimedia, text, graphics, images, video, animations, sound, 3D, enabling technologies, applications
Compression: Quantization theory, bit allocation, transform coding, subband coding, fractal coding, vector quantization, motion estimation, visual standards JBIG, JPEG, MPEG 1,2,4, audio/speech coding.
Networking: Introduction to networking priciples: foundation, layering and protocols, physically connecting hosts, packet switching, internetworking, end to end protocols, end to end data, congestion control; Multimedia Networks: requirements and performance issues, throughput, error rate, delay, round trip delay, delay variation or jitter, throughput variation; Qos: RSVP, Diffserv, MPLS, real time multimedia streaming techniques, multicast and rate control;
Wireless and mobile multimedia networking: wireless channel models and protocols; error reslient compression for wireless.
Each student will choose to do a class project on a mutually agreed upon topic related to multimedia signal processing, communication, or networking. Each class project can have anywhere from 1 to 3 participants. Proposals are due on Friday March 1. Final Project presentations will be on Friday May 3 and May 10th. The report on the final project is due on May 14th. Project will count for 70% of the grade. There will also be in class discussions led by students on papers assigned by the instructor. Participation in class discussions will count 30% towards the grade.
AnnouncementsPlease obtain the reader at Copy Central on Euclid. Click here for a list of papers in the reader.