GROW-Net - A new hybrid optical wireless access network architecture

W. T. Shaw; D. Gutierrez; K. S. Kim; N. Cheng; S. H. Wong; S. H. Yen; L. G. Kazovsky

doi:10.2991/jcis.2006.316

GROW-Net - A new hybrid optical wireless access network architecture

W. T. Shaw^*, D. Gutierrez, K. S. Kim, N. Cheng, S. H. Wong, S. H. Yen, L. G. Kazovsky

^*Corresponding author for this work

Stanford University

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

1 Citation (Scopus)

Abstract

We propose a novel hybrid optical wireless access network architecture that is designed for highly populated metropolitan area. This hybrid access network consists of an optical grid network providing broadband backhauling, and many wireless mesh networks penetrating into the neighborhoods to provide low cost, ubiquitous links. This hybrid access network architecture is scalable and flexible enough to easily meet varying demands for bandwidth of end users: As bandwidth demand increases, the capacity of the hybrid access network can be upgraded by deploying more access points in the wireless mesh network until its performance begins to degrade due to high hop-counts. As the performance degrade occurs, additional fiber are deployed (or dark fibers activated) to enhance the overall network capacity. On the optical grid backhauling network, we propose a hierarchical loop routing protocol to enhance the routing efficiency. Intra-cell hybrid adaptive routing protocols and algorithms are proposed to achieve the optimum network performance provided by this hybrid access network.

Original language	English
Title of host publication	Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006
DOIs	https://doi.org/10.2991/jcis.2006.316
Publication status	Published - 2006
Externally published	Yes
Event	9th Joint Conference on Information Sciences, JCIS 2006 - Taiwan, ROC, Taiwan, Province of China Duration: 8 Oct 2006 → 11 Oct 2006

Publication series

Name	Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006
Volume	2006

Conference

Conference	9th Joint Conference on Information Sciences, JCIS 2006
Country/Territory	Taiwan, Province of China
City	Taiwan, ROC
Period	8/10/06 → 11/10/06

Keywords

Hierarchical loop routing protocol
Hybrid access networks
Intra-cell hybrid adaptive routing protocol and algorithm
Wireless mesh network

Access to Document

10.2991/jcis.2006.316

Cite this

Shaw, W. T., Gutierrez, D., Kim, K. S., Cheng, N., Wong, S. H., Yen, S. H., & Kazovsky, L. G. (2006). GROW-Net - A new hybrid optical wireless access network architecture. In Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006 Article PNC-47 (Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006; Vol. 2006). https://doi.org/10.2991/jcis.2006.316

@inproceedings{c3cc09922934449488f0da0eb30524eb,

title = "GROW-Net - A new hybrid optical wireless access network architecture",

abstract = "We propose a novel hybrid optical wireless access network architecture that is designed for highly populated metropolitan area. This hybrid access network consists of an optical grid network providing broadband backhauling, and many wireless mesh networks penetrating into the neighborhoods to provide low cost, ubiquitous links. This hybrid access network architecture is scalable and flexible enough to easily meet varying demands for bandwidth of end users: As bandwidth demand increases, the capacity of the hybrid access network can be upgraded by deploying more access points in the wireless mesh network until its performance begins to degrade due to high hop-counts. As the performance degrade occurs, additional fiber are deployed (or dark fibers activated) to enhance the overall network capacity. On the optical grid backhauling network, we propose a hierarchical loop routing protocol to enhance the routing efficiency. Intra-cell hybrid adaptive routing protocols and algorithms are proposed to achieve the optimum network performance provided by this hybrid access network.",

keywords = "Hierarchical loop routing protocol, Hybrid access networks, Intra-cell hybrid adaptive routing protocol and algorithm, Wireless mesh network",

author = "Shaw, {W. T.} and D. Gutierrez and Kim, {K. S.} and N. Cheng and Wong, {S. H.} and Yen, {S. H.} and Kazovsky, {L. G.}",

year = "2006",

doi = "10.2991/jcis.2006.316",

language = "English",

isbn = "9078677015",

series = "Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006",

booktitle = "Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006",

note = "9th Joint Conference on Information Sciences, JCIS 2006 ; Conference date: 08-10-2006 Through 11-10-2006",

}

Shaw, WT, Gutierrez, D, Kim, KS, Cheng, N, Wong, SH, Yen, SH & Kazovsky, LG 2006, GROW-Net - A new hybrid optical wireless access network architecture. in Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006., PNC-47, Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006, vol. 2006, 9th Joint Conference on Information Sciences, JCIS 2006, Taiwan, ROC, Taiwan, Province of China, 8/10/06. https://doi.org/10.2991/jcis.2006.316

GROW-Net - A new hybrid optical wireless access network architecture. / Shaw, W. T.; Gutierrez, D.; Kim, K. S. et al.
Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006. 2006. PNC-47 (Proceedings of the 9th Joint Conference on Information Sciences, JCIS 2006; Vol. 2006).

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

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AU - Wong, S. H.

AU - Yen, S. H.

AU - Kazovsky, L. G.

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N2 - We propose a novel hybrid optical wireless access network architecture that is designed for highly populated metropolitan area. This hybrid access network consists of an optical grid network providing broadband backhauling, and many wireless mesh networks penetrating into the neighborhoods to provide low cost, ubiquitous links. This hybrid access network architecture is scalable and flexible enough to easily meet varying demands for bandwidth of end users: As bandwidth demand increases, the capacity of the hybrid access network can be upgraded by deploying more access points in the wireless mesh network until its performance begins to degrade due to high hop-counts. As the performance degrade occurs, additional fiber are deployed (or dark fibers activated) to enhance the overall network capacity. On the optical grid backhauling network, we propose a hierarchical loop routing protocol to enhance the routing efficiency. Intra-cell hybrid adaptive routing protocols and algorithms are proposed to achieve the optimum network performance provided by this hybrid access network.

AB - We propose a novel hybrid optical wireless access network architecture that is designed for highly populated metropolitan area. This hybrid access network consists of an optical grid network providing broadband backhauling, and many wireless mesh networks penetrating into the neighborhoods to provide low cost, ubiquitous links. This hybrid access network architecture is scalable and flexible enough to easily meet varying demands for bandwidth of end users: As bandwidth demand increases, the capacity of the hybrid access network can be upgraded by deploying more access points in the wireless mesh network until its performance begins to degrade due to high hop-counts. As the performance degrade occurs, additional fiber are deployed (or dark fibers activated) to enhance the overall network capacity. On the optical grid backhauling network, we propose a hierarchical loop routing protocol to enhance the routing efficiency. Intra-cell hybrid adaptive routing protocols and algorithms are proposed to achieve the optimum network performance provided by this hybrid access network.

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GROW-Net - A new hybrid optical wireless access network architecture

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Keywords

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