A cross-domain communication resource scheduling method for grid-enabled communication networks

Xiangquan Zheng; Xiang Wen; Yongding Zhang

doi:10.1117/12.906070

29 October 2011 A cross-domain communication resource scheduling method for grid-enabled communication networks

Xiangquan Zheng, Xiang Wen, Yongding Zhang

Proceedings Volume 8205, 2011 International Conference on Photonics, 3D-Imaging, and Visualization; 820536 (2011) https://doi.org/10.1117/12.906070
Event: 2011 International Conference on Photonics, 3D-imaging, and Visualization, 2011, Guangzhou, China

Abstract

To support a wide range of different grid applications in environments where various heterogeneous communication networks coexist, it is important to enable advanced capabilities in on-demand and dynamical integration and efficient co-share with cross-domain heterogeneous communication resource, thus providing communication services which are impossible for single communication resource to afford. Based on plug-and-play co-share and soft integration with communication resource, Grid-enabled communication network is flexibly built up to provide on-demand communication services for gird applications with various requirements on quality of service. Based on the analysis of joint job and communication resource scheduling in grid-enabled communication networks (GECN), this paper presents a cross multi-domain communication resource cooperatively scheduling method and describes the main processes such as traffic requirement resolution for communication services, cross multi-domain negotiation on communication resource, on-demand communication resource scheduling, and so on. The presented method is to afford communication service capability to cross-domain traffic delivery in GECNs. Further research work towards validation and implement of the presented method is pointed out at last.

Citation Download Citation

Xiangquan Zheng, Xiang Wen, and Yongding Zhang "A cross-domain communication resource scheduling method for grid-enabled communication networks", Proc. SPIE 8205, 2011 International Conference on Photonics, 3D-Imaging, and Visualization, 820536 (29 October 2011); https://doi.org/10.1117/12.906070

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KEYWORDS

Telecommunications

Network architectures

Switching

Logic

Information fusion

Data communications

Distributed computing

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