Impairment aware RWA in optical networks: Over-provisioning or cross optimization?

被引：3

作者：

Christodoulopoulos K. ^{[1
,2
]}

Kokkinos P. ^{[1
]}

Manousakis K. ^{[1
]}

Varvarigos E.A. ^{[1
]}

机构：

[1] Computer Engineering and Informatics Department, University of Patras, Patras

[2] Research Academic Computer Technology Institute, Patras

来源：

Journal of Networks | 2010年 / 5卷 / 11期

关键词：

Network provisioning; Physical layer impairments; Routing and wavelength assignment; Translucent networks; Transparent networks;

D O I：

10.4304/jnw.5.11.1271-1278

中图分类号：

学科分类号：

摘要：

In transparent and translucent wavelength routed optical networks the signal quality degrades due to physical layer impairments while the interference among lightpaths implies that routing decisions for one lightpath affect and are affected by the decisions made for other lightpaths. To establish a lightpath for a new connection two main approaches can be used. The most common approach is to select a lightpath that has acceptable transmission quality under a worst case interference assumption, ensuring that the selected lightpath will not become infeasible due to the possible establishment of future interfering connections. This approach sacrifices candidate path space for a quick and stable lightpath selection, which is appealing from a complexity viewpoint. The second approach is to consider the current network utilization and account for the actual interference among lightpaths, performing a cross layer optimization between the network and physical layers. In this case, however, the algorithm has to check whether the establishment of the new lightpath turns infeasible some of the already established connections. The question that arises is whether the performance benefits that can be achieved through the second approach are worth the added complexity introduced by the cross-layer optimization applied. © 2010 Academy Publisher.

引用

页码：1271 / 1278

页数：7

共 15 条

[1]

Zang H., Jue J.P., Mukherjee B., A Review of Routing and Wavelength Assignment Approaches for Wavelength-Routed Optical WDM Networks, Optical Networks Magazine, 1, (2000)

[2]

Huang Y., Heritage J., Mukherjee B., Connection provisioning with transmission impairment consideration in optical WDM networks with highspeed channels, J. of Lightwave Technology, 23, 3, (2005)

[3]

He J., Brandt-Pearce M., Pointurier Y., Subramaniam S., QoT-Aware Routing in Impairment-Constrained Optical Networks, IEEE Globecom, pp. 26-30, (2007)

[4]

Anagnostopoulos V., Politi C., Matrakidis C., Stavdas A., Physical layer impairment aware routing algorithms based on analytically calculated constraints, Optics Communications, (2006)

[5]

Christodoulopoulos K., Manousakis K., Varvarigos E.A., Angelou M., Tomkos I., A Multicost Approach to Online Impairment-Aware RWA, IEEE International Conference on Communications (ICC), (2009)

[6]

Shen G., Grover W.D., Cheng T.H., Bose S.K., Sparse placement of electronic switching nodes for low-blocking in translucent optical networks, J. of Optical Networking 1, pp. 424-441, (2002)

[7]

Ye Y., Chai T.Y., Cheng T.H., Lu C., Novel algorithm for upgrading of translucent optical networks, Optics Express, 11, 23, pp. 3022-3033, (2003)

[8]

Yang X., Ramamurthy B., Dynamic Routing in Translucent WDM Optical Networks: The Intra-Domain Case, J. of Lightwave Technology, 23, 3, (2005)

[9]

Ye Y., Chai T.Y., Lu C., Routing and Wavelength assignment algorithms for translucent optical networks, Optics communications, pp. 233-239, (2004)

[10]

Pachnicke S., Paschenda T., Krummrich P., Assessment of a constraint-based routing algorithm for translucent 10 Gbits/s DWDM networks considering fiber nonlinearities, J. of Optical Networking, 7, 4, pp. 365-377, (2008)

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