Inherent Network Management: Support for Traffic Engineering and CAPEX Analysis in Future Internet Scenarios

2010 36th EUROMICRO Conference on Software Engineering and Advanced Applications Pub Date : 2010-09-01 DOI:10.1109/SEAA.2010.38

G. Haßlinger, G. Nunzi, C. Meirosu, C. Fan, Frank-Uwe Andersen

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引用次数: 1

Abstract

Future Internet, Inherent Network Management (INM) and business aspects such as OPEX/CAPEX are topics of vivid research activity for quite some time. This paper focuses on the combination of the three areas, showing what is expected from recent Future Internet activities based on experience in the 4WARD project founded by the European Union. We briefly introduce the notion of INM and the related de-sign spectrum. Then we evaluate the effect of INM design for more flexibility in traffic engineering and advanced monitoring to exploit bandwidth and other network resources and the impact on cost savings. We study the process of upgrading the link capacities in broadband access networks, which has to be faced by network providers in ongoing periods of rapidly growing Internet traffic. A case study of full mesh topologies is analyzed for comparison of planning processes with and without traffic path optimization. The results indicate that flexible traffic path design with INM support allows at least 20% higher resource utilization and savings in equipment costs as well as energy consumption.

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内在网络管理:支持未来互联网场景下的流量工程和资本支出分析

未来互联网，固有网络管理(INM)和业务方面，如OPEX/CAPEX是相当长一段时间生动的研究活动的主题。本文的重点是将这三个领域结合起来，根据欧盟创立的4WARD项目的经验，展示了对未来互联网活动的期望。我们简要地介绍了INM的概念和相关的设计谱。然后，我们评估了INM设计在流量工程和高级监控中更灵活的效果，以利用带宽和其他网络资源，以及对成本节约的影响。我们研究了宽带接入网中链路容量的升级过程，这是网络提供商在互联网流量快速增长的持续时期必须面对的问题。以全网格拓扑为例，比较了有和没有交通路径优化的规划过程。结果表明，在INM支持下，灵活的交通路径设计可以使资源利用率提高至少20%，并节省设备成本和能源消耗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 36th EUROMICRO Conference on Software Engineering and Advanced Applications

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