Per-flow based node architecture for integrated services packet networks

Dapeng Wu, Y. Thomas Hou, Zhi Li Zhang, H. Jonathan Chao, Takeo Hamada

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

This paper presents a network node architecture and several traffic management mechanisms that are capable of achieving QoS provisioning for the guaranteed service (GS), the controlled-load (CL) service, and the best-effort (BE) service under the IETF integrated services (IntServ) paradigm. Our architecture offers the attractive feature of in-sequence delivery for all packets, albeit some of which may be out-of-profile. Simulation results show that, once admitted into the network, our architecture and traffic management algorithms provide hard performance guarantees to GS flows under all conditions, consistent (or soft) performance to CL flows under both light load and heavy load conditions, and minimal negative impact to in-profile GS, CL and BE traffic should there be any out-of-profile behavior from some flows.

Original languageEnglish (US)
Title of host publicationIEEE International Conference on Communications
Pages1152-1158
Number of pages7
Volume2
StatePublished - 2000
Event2000 IEEE International Conference on Communications - New orleans, LA, USA
Duration: Jun 18 2000Jun 22 2000

Other

Other2000 IEEE International Conference on Communications
CityNew orleans, LA, USA
Period6/18/006/22/00

Fingerprint

Packet networks
Network architecture
Telecommunication traffic
Quality of service

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Wu, D., Hou, Y. T., Zhang, Z. L., Chao, H. J., & Hamada, T. (2000). Per-flow based node architecture for integrated services packet networks. In IEEE International Conference on Communications (Vol. 2, pp. 1152-1158)

Per-flow based node architecture for integrated services packet networks. / Wu, Dapeng; Hou, Y. Thomas; Zhang, Zhi Li; Chao, H. Jonathan; Hamada, Takeo.

IEEE International Conference on Communications. Vol. 2 2000. p. 1152-1158.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Wu, D, Hou, YT, Zhang, ZL, Chao, HJ & Hamada, T 2000, Per-flow based node architecture for integrated services packet networks. in IEEE International Conference on Communications. vol. 2, pp. 1152-1158, 2000 IEEE International Conference on Communications, New orleans, LA, USA, 6/18/00.
Wu D, Hou YT, Zhang ZL, Chao HJ, Hamada T. Per-flow based node architecture for integrated services packet networks. In IEEE International Conference on Communications. Vol. 2. 2000. p. 1152-1158
Wu, Dapeng ; Hou, Y. Thomas ; Zhang, Zhi Li ; Chao, H. Jonathan ; Hamada, Takeo. / Per-flow based node architecture for integrated services packet networks. IEEE International Conference on Communications. Vol. 2 2000. pp. 1152-1158
@inproceedings{fdc567489b4f4da5ab385419f661790e,
title = "Per-flow based node architecture for integrated services packet networks",
abstract = "This paper presents a network node architecture and several traffic management mechanisms that are capable of achieving QoS provisioning for the guaranteed service (GS), the controlled-load (CL) service, and the best-effort (BE) service under the IETF integrated services (IntServ) paradigm. Our architecture offers the attractive feature of in-sequence delivery for all packets, albeit some of which may be out-of-profile. Simulation results show that, once admitted into the network, our architecture and traffic management algorithms provide hard performance guarantees to GS flows under all conditions, consistent (or soft) performance to CL flows under both light load and heavy load conditions, and minimal negative impact to in-profile GS, CL and BE traffic should there be any out-of-profile behavior from some flows.",
author = "Dapeng Wu and Hou, {Y. Thomas} and Zhang, {Zhi Li} and Chao, {H. Jonathan} and Takeo Hamada",
year = "2000",
language = "English (US)",
volume = "2",
pages = "1152--1158",
booktitle = "IEEE International Conference on Communications",

}

TY - GEN

T1 - Per-flow based node architecture for integrated services packet networks

AU - Wu, Dapeng

AU - Hou, Y. Thomas

AU - Zhang, Zhi Li

AU - Chao, H. Jonathan

AU - Hamada, Takeo

PY - 2000

Y1 - 2000

N2 - This paper presents a network node architecture and several traffic management mechanisms that are capable of achieving QoS provisioning for the guaranteed service (GS), the controlled-load (CL) service, and the best-effort (BE) service under the IETF integrated services (IntServ) paradigm. Our architecture offers the attractive feature of in-sequence delivery for all packets, albeit some of which may be out-of-profile. Simulation results show that, once admitted into the network, our architecture and traffic management algorithms provide hard performance guarantees to GS flows under all conditions, consistent (or soft) performance to CL flows under both light load and heavy load conditions, and minimal negative impact to in-profile GS, CL and BE traffic should there be any out-of-profile behavior from some flows.

AB - This paper presents a network node architecture and several traffic management mechanisms that are capable of achieving QoS provisioning for the guaranteed service (GS), the controlled-load (CL) service, and the best-effort (BE) service under the IETF integrated services (IntServ) paradigm. Our architecture offers the attractive feature of in-sequence delivery for all packets, albeit some of which may be out-of-profile. Simulation results show that, once admitted into the network, our architecture and traffic management algorithms provide hard performance guarantees to GS flows under all conditions, consistent (or soft) performance to CL flows under both light load and heavy load conditions, and minimal negative impact to in-profile GS, CL and BE traffic should there be any out-of-profile behavior from some flows.

UR - http://www.scopus.com/inward/record.url?scp=0033681678&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0033681678&partnerID=8YFLogxK

M3 - Conference contribution

VL - 2

SP - 1152

EP - 1158

BT - IEEE International Conference on Communications

ER -