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IEEE C802.20-03/73: Traffic Models - Status and Discussion

This document provides an overview of the status and discussion on traffic models for IEEE C802.20, focusing on the need for consensus models and the relevant contributions made so far. It also explores the scope and approach of the modeling effort and discusses the different traffic types and user scenarios to consider. Additionally, the document addresses the traffic mix, logistics, and the need for more detailed traffic models.

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IEEE C802.20-03/73: Traffic Models - Status and Discussion

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  1. IEEE C802.20-03/73 802.20 Traffic Models: Status/Discussion N. K. Shankaranarayanan (“Shankar”) AT&T Labs-Research July 22, 2003

  2. Background • 802.20 Channel & Traffic Model Correspondence Group • Formed May 2003, Chair: Glenn Golden • Channel Model Subgroup, Traffic Models Subgroup • 802.20 Traffic Models Correspondence Subgroup • Editor: N. K. Shankar • Objective: To develop a consensus traffic model that can be used in simulations of MBWA systems

  3. Status • We have a baseline draft document: C802.20-03-66 • Table of Contents • Initial thoughts on scope & approach of modeling effort • List of traffic types • Illustrative content from contributions • We need contributions • Get consensus on some issues regarding scope and approach of modeling work. Some of this overlaps with other groups. • Detailed statistical models of each traffic type

  4. Relevant contributions • C802.20-03/43 (& 03/57) has a detailed proposal for traffic models for Web-browsing, FTP, WAP, and near real time video. • C802.20-03-13r1 details a user modeling approach including a Web/interactive user/capacity model. • C802.20-03/35 gives a list of MBWA traffic types. • C802.20-03/53 shows a measurement of the mix of traffic types. • C802.20-03/46r1 states that a mix of narrowband of broadband traffic types should be used

  5. Need for Traffic Models • MBWA will have multiple types of IP-based services • Performance often defined at application layer • State-of-the-art is to simulate all layers: application, protocols, MAC, PHY • Complex interactions => Simulations need traffic models that capture application characteristics

  6. Traffic types • List of traffic types (so far) • Web browsing • FTP (File transfer) • E-mail • WAP (Wireless Application Protocol) • Voice / VoIP • Video telephony / videoconference • Audio streaming • Video streaming • Gaming • Other (PDA synchronization, file-sharing ..) • Downlink and uplink • Adds/deletes/changes ?

  7. User Scenarios • Traffic & application details depend on user & device scenario. Some examples: • Laptop user: Large display, high power, large storage, portable • PDA: Medium display, medium power, medium storage, mobile • Phone: Small display, low power, low storage, very mobile • ?? • Traffic model parameters are influenced by usage scenario • e.g. small storage => limited download • Logistics • What kind of consensus is needed re. usage scenarios? • Which is the right group/forum?

  8. Traffic modeling approach/scope (1/2) • Relatively low amount of validated published work (e.g. compared to channel models) • Use models based on measurements from wired networks • We are (probably) not considering trace-based models • Not flexible, too dependant on source system • Traffic models will specify traffic from an active/registered user/session. Does not model statistics of inactive subscribers becoming active (?)

  9. Traffic modeling scope/approach (2/2) • Performance specification is outside scope (?) • e.g. required web page delay • Protocol specification is partially outside scope (?) • e.g. TCP details (what flavor?), HTTP version outside scope • some interdependencies exist: Audio streaming model may change based on underlying protocol being TCP or UDP • What about adaptive applications? • e.g. rate/content adaptation of audio streaming, image browsing • “Traffic model senses network condition and adapts” v. “simulation picks hi-rate or lo-rate version”

  10. Traffic Mix • Proportion of different traffic types influenced by: • Different types of devices: laptop, PDA, phone • Different services from same device/user: Web-conference (Web + audio) v. single-service (E-mail) • Different design choices made by operator • Measurement-based statistical approach makes more sense for application traffic model, and perhaps make less sense for traffic mix (?) • Traffic mix specification coupled strongly to what you want to evaluate and measure • More delay-sensitive traffic will emphasize response time & delay. • Heavy FTP-type traffic will emphasize sustained throughput • Logistics: how to handle overlap with eval group

  11. The “real” detailed traffic models • We need more input & discussions. • Only one detailed contribution: C802.20-03/43 with detailed models for Web, FTP, WAP, video streaming. Based on 1x-EVDV work. Content is pasted in baseline document. • Baseline document has some references for traffic modeling: gaming, audio streaming etc.

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