Presentation is loading. Please wait.

Presentation is loading. Please wait.

Research Objectives Create an edge device model –Create edge device model which connects different networks to the Internet a heterogeneous network Understand.

Published byCynthia West Modified over 8 years ago

Similar presentations

Presentation on theme: "Research Objectives Create an edge device model –Create edge device model which connects different networks to the Internet a heterogeneous network Understand."— Presentation transcript:

1 Research Objectives Create an edge device model –Create edge device model which connects different networks to the Internet a heterogeneous network Understand the End-to-End QoS signaling –Analyze different signaling protocol directions such as sender vs. receiver oriented signaling protocols ATM vs. IntServ/RSVP Translate traffic parameters in the edge device –Translate traffic parameters among IntServ, ATM and CATV service classes GS UGS CBR CLS rt-Polling ABR BES BES UBR Verify the edge device model using OPNET ®

2 Edge Device Architecture for IntServ/ATM

3 Flow Control With Token Bucket

4 End-to-End Signaling Protocol Sender Times Ingress Edge Device Egress Edge Device Receiver Choose NSAP Addr. Add Selector Byte to RESV RESV Wait for ATM Connection Request Get Selector Byte From RESV RESV Make ATM Connection Request Accept ATM Connection Store Port in Flow Record ATM Connection RESV

5 ATM/IntServ Mapping CBR parameters to GS parameters –PCR translates to Peak Rate –MCR translates to Average Rate –SCR translates to Bucket Depth ABR parameters to CLS parameters –PCR translates to Average Rate –MCR is set to be zero Or –PCR is set to be default value –MCR translates to Allowed Cell Rate –Actual transmission rate is controlled by the ATM ABR feedback information

6 RSVP Application Design

7 Edge Device Construction

8 Experiment Results

9 On Going: IP Over CATV Cable network is getting popular for data communication –QoS is built into MAC layer Bandwidth allocation scheme is asymmetric –Downstream has higher bandwidth than upstream Head-end reserves and allocates up- and down-stream bandwidth –QoS requirement is not initiated by the end-host –Edge device(CMTS) needs to translate the traffic parameters and signals the connection setup

10 CATV network: Example

11 QoS Issues QoS Heterogeneity –End User: IntServ –Transmission: Cable network –Backbone: ATM QoS Signal Mapping IntServGuaranteed Service Controlled Load Service Best Effort Service ATMCBRABRUBR Cable Modem UGSNrt-PollingBest Effort

12 Conclusion Contributions –Model of edge device for IntServ over ATM –Development of edge device architecture Ongoing work –End-to-end QoS signaling in IP over CATV environment –Performance evaluation of the edge device and the QoS method in CATV network

Download ppt "Research Objectives Create an edge device model –Create edge device model which connects different networks to the Internet a heterogeneous network Understand."

Similar presentations

Spring 2003CS 4611 Quality of Service Outline Realtime Applications Integrated Services Differentiated Services.

Spring 2003CS 4611 Quality of Service Outline Realtime Applications Integrated Services Differentiated Services.
Spring 2000CS 4611 Quality of Service Outline Realtime Applications Integrated Services Differentiated Services.

Spring 2000CS 4611 Quality of Service Outline Realtime Applications Integrated Services Differentiated Services.
1 © 2004, Cisco Systems, Inc. All rights reserved. Chapter 3 Ethernet Technologies/ Ethernet Switching/ TCP/IP Protocol Suite and IP Addressing.

1 © 2004, Cisco Systems, Inc. All rights reserved. Chapter 3 Ethernet Technologies/ Ethernet Switching/ TCP/IP Protocol Suite and IP Addressing.
RSVP/Diffserv Yoram Bernet - Microsoft Raj Yavatkar - Intel.

RSVP/Diffserv Yoram Bernet - Microsoft Raj Yavatkar - Intel.
CS640: Introduction to Computer Networks Aditya Akella Lecture 20 – QoS.

CS640: Introduction to Computer Networks Aditya Akella Lecture 20 – QoS.
CSE 30264 Computer Networks Prof. Aaron Striegel Department of Computer Science & Engineering University of Notre Dame Lecture 20 – March 25, 2010.

CSE Computer Networks Prof. Aaron Striegel Department of Computer Science & Engineering University of Notre Dame Lecture 20 – March 25, 2010.
CPSC 601.43 Topics in Multimedia Networking A Mechanism for Equitable Bandwidth Allocation under QoS and Budget Constraints D. Sivakumar IBM Almaden Research.

CPSC Topics in Multimedia Networking A Mechanism for Equitable Bandwidth Allocation under QoS and Budget Constraints D. Sivakumar IBM Almaden Research.
Presented By: Pariya Raoufi. Motivations Future applications require: higher bandwidth, generate a heterogeneous mix of network traffic, low latency.

Presented By: Pariya Raoufi. Motivations Future applications require: higher bandwidth, generate a heterogeneous mix of network traffic, low latency.
Copyright: RSVP The ReSerVation Protocol by Sujay koduri.

Copyright: RSVP The ReSerVation Protocol by Sujay koduri.
1 All about ATM: ATM Terminology Explained Carey Williamson Department of Computer Science University of Calgary.

1 All about ATM: ATM Terminology Explained Carey Williamson Department of Computer Science University of Calgary.
End-to-End Analysis of Distributed Video-on-Demand Systems Padmavathi Mundur, Robert Simon, and Arun K. Sood IEEE Transactions on Multimedia, February.

End-to-End Analysis of Distributed Video-on-Demand Systems Padmavathi Mundur, Robert Simon, and Arun K. Sood IEEE Transactions on Multimedia, February.
Next Generation Networks Chapter 10. Knowledge Concepts QoS concepts Bandwidth needs for Internet traffic.

Next Generation Networks Chapter 10. Knowledge Concepts QoS concepts Bandwidth needs for Internet traffic.
ACN: IntServ and DiffServ1 Integrated Service (IntServ) versus Differentiated Service (Diffserv) Information taken from Kurose and Ross textbook “ Computer.

ACN: IntServ and DiffServ1 Integrated Service (IntServ) versus Differentiated Service (Diffserv) Information taken from Kurose and Ross textbook “ Computer.
Quality of Service (QoS) Routing Eric M. Wagner St. Xavier University Spring 2005.

Quality of Service (QoS) Routing Eric M. Wagner St. Xavier University Spring 2005.
QoS Protocols & Architectures by Harizakis Costas.

QoS Protocols & Architectures by Harizakis Costas.
ATM service types CBR (Constant Bit Rate)

ATM service types CBR (Constant Bit Rate)
In-Band Flow Establishment for End-to-End QoS in RDRN Saravanan Radhakrishnan.

In-Band Flow Establishment for End-to-End QoS in RDRN Saravanan Radhakrishnan.
1 Quality of Service Outline Realtime Applications Integrated Services Differentiated Services.

1 Quality of Service Outline Realtime Applications Integrated Services Differentiated Services.
1 Network Layer: Host-to-Host Communication. 2 Network Layer: Motivation Can we built a global network such as Internet by extending LAN segments using.

1 Network Layer: Host-to-Host Communication. 2 Network Layer: Motivation Can we built a global network such as Internet by extending LAN segments using.
Multicast Communication

Multicast Communication

Similar presentations

Ads by Google