CS590N Topics in Multimedia Computing and Networking
Spring 2000

    Time and Place:      TTh 3:00--4:20 PM, CHME 002.
    Professor:           David K. Yau, CS 132, yau@cs.purdue.edu.

Synopsis

This is a first level graduate course in distributed multimedia. We will study both operating systems and networking issues for supporting multimedia applications. Graduate standing in computer science is expected; however, no advanced knowledge in operating systems or networking is assumed. Students who do not have computer science background may also enroll, but they should first discuss with the instructor.


Slides

Slides on packet scheduling
Slides on max-min fairness
More slides on packet scheduling
RSVP
Multicast routing
Supplemental routing slides

Homework

Homework #2

Paper list

NETWORKING

IEEE Network, September/October 1999 OPERATING SYSTEMS
More papers
Scalable vector graphics links

Paper presentations

How to give a good technical talk

Schedule 
3/23 Prem Gopalan (gopalan@purdue.edu)
		    Harter et al, The Anatomy of a Context-Aware Application

3/28 Arjun Sreekantiah (sreekana)
		    D. Decasper et al, Router Plugins, A Software Architecture
		    for Next Generation Routers
     Senthilkumar Rajaram (rajarams@ecn)      
		    T. Parks et al, Security Implications of Adaptive 
		    Multimedia Distribuion  
                                          
3/30 Dhananjay Adhikari (adhikari@ecn)
                     A. Wolman et al, On the scale and performance of 
                     cooperative web proxy caching
     Renin M Jegadeesan (rmj)
                     K. Sripanidkulcha et al, A third-party value-added network 
                     service approach to reliable multicast

4/4  Saurabh Sandhir C. Dovrolis and P. Ramanathan, A Case for Relative
                     Differentiated Services and the Proportional 
                     Differentiation Model (sandhir@purdue.edu)
     Ankur Prakash   A Policy Framework for Integrated and Differentiated 
                     Services in the Internet (prakasha@ecn)

4/6  Ravi I Singh    Ni Xiao, Internet QoS : A big picture
                     (IEEE Network March/April 99) (singhr@cs)
     Atul Mathur     G. Apostolopoulos et al, Intradomain QoS Routing in IP 
                     Networks: A Feasibility and Cost/Benefit Analysis
		     (mathura)

4/11 Vinayak Jayant Tanksale (tanksale)
                     A. Neogi et al, Performance Analysis of an 
                     RSVP-Capable Router 
     Sambhrama Mundkur (mundkur)
                     R. Morris et al, Click Modular router

4/13 Matthew A. Baarman (baarman)
                     A. Bavier et al, Predicting MPEG Execution Times 
     Rahul Vardha Chari (rchari)
                     Scalable Vector Graphics

4/18 Hao Wu          R. Edell and P. Varaiya, Providing Internet Access: What 
                     We Learn from INDEX (wuh)
     Xiangjing Chen  Y. Saito, Manageability, availability and performance 
                     in Porcupine: a highly scalable, cluster-based mail 
                     service (chenxj)

4/20 Jamie Van Randwyk (jav)
                     J. Flinn and M. Satyanarayanan, Energy-aware adaptation 
                     for mobile applications
     Christohper Adam Telfer (telfer)
                     O. Spatscheck and L. Peterson, Defending Against 
                     Denial of Service Attacks in Scout 

4/25 Guoxin Fan	     K. Zuberi et al, EMERALDS: a small-merory real-time 
                     microkenerl (gfan@math)
     Xiaohuan Xu     B. Teitelbaum et al, Internet2 Qbone: Building a 
                     Testbed for Differentiated Services (xu0@expert.cc)
                     Slides

4/27 Sohil Maru	     H. Schulzrinne and J. Rosenberg. Internet Telephony: 
                     Architecture and Protocols-- An IETF Perspective (maru)
     Kirti Gupta     D. Descasper et al, A scalable, high performance active
                     network node (kgupta@ecn)