QoS contention control for optical coarse packet switched IP-over-WDM network

Maria C. Yuang; Po-Lung Tien; Julin Shih; Steven S.W. Lee; Yu Min Lin; Yuan Chen; Frank Tsai; Alice Chen

doi:10.1109/ITRE.2005.1503104

QoS contention control for optical coarse packet switched IP-over-WDM network

Maria C. Yuang^*, Po-Lung Tien, Julin Shih, Steven S.W. Lee, Yu Min Lin, Yuan Chen, Frank Tsai, Alice Chen

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In this paper, we first introduce an Optical Coarse Packet Switching (OCPS) paradigm. In principle, OCPS advocates the enforcement of traffic engineering and control to realize bandwidth-on-demand on sub-wavelength basis while circumventing optical packet switching limitations. Based on OCPS, we have constructed an experimental optical IP-over-WDM network testbed, referred to as OPSINET. In the paper, we present the architectural design of OPSINET and its Hybrid Contention Control (HCC) mechanism aiming to satisfy various classes of loss QoS guarantees. The mechanism preventively adopts appropriate burst sizes for different traffic classes during packet burstification at ingress routers. It also reactively performs prioritized contention resolution at OLSRs in the presence of contention. Experimental results show that HCC invariantly achieves low loss probability as a result of burstification-based traffic shaping. Moreover, it provides satisfied loss guarantees for high-priority classes while incurring minimal loss degradation for lower-priority classes.

Original language	English
Title of host publication	ITRE 2005 - 3rd International Conference on Information Technology
Subtitle of host publication	Research and Education - Proceedings
Pages	211-215
Number of pages	5
DOIs	https://doi.org/10.1109/ITRE.2005.1503104
State	Published - 2005
Event	ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Hsinchu, Taiwan Duration: 27 Jun 2005 → 30 Jun 2005

Publication series

Name	ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings
Volume	2005

Conference

Conference	ITRE 2005 - 3rd International Conference on Information Technology: Research and Education
Country/Territory	Taiwan
City	Hsinchu
Period	27/06/05 → 30/06/05

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10.1109/ITRE.2005.1503104

Cite this

Yuang, M. C., Tien, P.-L., Shih, J., Lee, S. S. W., Lin, Y. M., Chen, Y., Tsai, F., & Chen, A. (2005). QoS contention control for optical coarse packet switched IP-over-WDM network. In ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings (pp. 211-215). Article 1503104 (ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings; Vol. 2005). https://doi.org/10.1109/ITRE.2005.1503104

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title = "QoS contention control for optical coarse packet switched IP-over-WDM network",

abstract = "In this paper, we first introduce an Optical Coarse Packet Switching (OCPS) paradigm. In principle, OCPS advocates the enforcement of traffic engineering and control to realize bandwidth-on-demand on sub-wavelength basis while circumventing optical packet switching limitations. Based on OCPS, we have constructed an experimental optical IP-over-WDM network testbed, referred to as OPSINET. In the paper, we present the architectural design of OPSINET and its Hybrid Contention Control (HCC) mechanism aiming to satisfy various classes of loss QoS guarantees. The mechanism preventively adopts appropriate burst sizes for different traffic classes during packet burstification at ingress routers. It also reactively performs prioritized contention resolution at OLSRs in the presence of contention. Experimental results show that HCC invariantly achieves low loss probability as a result of burstification-based traffic shaping. Moreover, it provides satisfied loss guarantees for high-priority classes while incurring minimal loss degradation for lower-priority classes.",

author = "Yuang, {Maria C.} and Po-Lung Tien and Julin Shih and Lee, {Steven S.W.} and Lin, {Yu Min} and Yuan Chen and Frank Tsai and Alice Chen",

year = "2005",

doi = "10.1109/ITRE.2005.1503104",

language = "English",

isbn = "0780389328",

series = "ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings",

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Yuang, MC, Tien, P-L, Shih, J, Lee, SSW, Lin, YM, Chen, Y, Tsai, F & Chen, A 2005, QoS contention control for optical coarse packet switched IP-over-WDM network. in ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings., 1503104, ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings, vol. 2005, pp. 211-215, ITRE 2005 - 3rd International Conference on Information Technology: Research and Education, Hsinchu, Taiwan, 27/06/05. https://doi.org/10.1109/ITRE.2005.1503104

QoS contention control for optical coarse packet switched IP-over-WDM network. / Yuang, Maria C.; Tien, Po-Lung; Shih, Julin et al.
ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings. 2005. p. 211-215 1503104 (ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings; Vol. 2005).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Tien, Po-Lung

AU - Shih, Julin

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AU - Lin, Yu Min

AU - Chen, Yuan

AU - Tsai, Frank

AU - Chen, Alice

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N2 - In this paper, we first introduce an Optical Coarse Packet Switching (OCPS) paradigm. In principle, OCPS advocates the enforcement of traffic engineering and control to realize bandwidth-on-demand on sub-wavelength basis while circumventing optical packet switching limitations. Based on OCPS, we have constructed an experimental optical IP-over-WDM network testbed, referred to as OPSINET. In the paper, we present the architectural design of OPSINET and its Hybrid Contention Control (HCC) mechanism aiming to satisfy various classes of loss QoS guarantees. The mechanism preventively adopts appropriate burst sizes for different traffic classes during packet burstification at ingress routers. It also reactively performs prioritized contention resolution at OLSRs in the presence of contention. Experimental results show that HCC invariantly achieves low loss probability as a result of burstification-based traffic shaping. Moreover, it provides satisfied loss guarantees for high-priority classes while incurring minimal loss degradation for lower-priority classes.

AB - In this paper, we first introduce an Optical Coarse Packet Switching (OCPS) paradigm. In principle, OCPS advocates the enforcement of traffic engineering and control to realize bandwidth-on-demand on sub-wavelength basis while circumventing optical packet switching limitations. Based on OCPS, we have constructed an experimental optical IP-over-WDM network testbed, referred to as OPSINET. In the paper, we present the architectural design of OPSINET and its Hybrid Contention Control (HCC) mechanism aiming to satisfy various classes of loss QoS guarantees. The mechanism preventively adopts appropriate burst sizes for different traffic classes during packet burstification at ingress routers. It also reactively performs prioritized contention resolution at OLSRs in the presence of contention. Experimental results show that HCC invariantly achieves low loss probability as a result of burstification-based traffic shaping. Moreover, it provides satisfied loss guarantees for high-priority classes while incurring minimal loss degradation for lower-priority classes.

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Yuang MC, Tien PL, Shih J, Lee SSW, Lin YM, Chen Y et al. QoS contention control for optical coarse packet switched IP-over-WDM network. In ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings. 2005. p. 211-215. 1503104. (ITRE 2005 - 3rd International Conference on Information Technology: Research and Education - Proceedings). doi: 10.1109/ITRE.2005.1503104

QoS contention control for optical coarse packet switched IP-over-WDM network

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