实现认知光网络的控制和管理系统

光通信研究 Pub Date : 2013-07-10 DOI:10.1109/NOC-OCI.2013.6582895

D. Siracusa, Attilio Broglio, A. Francescon, A. Zanardi, E. Salvadori

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引用次数: 2

摘要

认知是构成未来大容量异构光网络的要素之一。本文为能够支持认知实体的控制和管理系统(CMS)的初步研究提供了三个主要贡献，称为认知决策系统(CDS)。首先，提出了实现认知光网络的两种架构方法。其次，重点描述了一种集中式的基于gmpls的CMS体系结构及其模块与CDS之间的交互。特别是，CDS决策依赖于CMS协议(即OSPF - TE)更新的数据库来掌握有关网络配置和资源可用性的信息。不幸的是，OSPF - TE可能无法及时更新cd -数据库。为了解决这一问题，本文提出了两种cd -数据库更新策略，并通过仿真比较了它们的性能。最后，详细介绍了一系列悬而未决的问题和挑战，以便为深入分析所提出的CMS体系结构提供输入。

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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Toward a control and management system enabling cognitive optical networks

Cognition represents one of the ingredients to make up the future high-capacity heterogeneous optical networks. This paper provides three main contributions for a preliminary study of a Control and Management System (CMS) able to support the cognitive entity, named Cognitive Decision System (CDS). First of all, two architectural approaches to realize a cognitive optical network are presented. Secondly, the focus is set on the description of a centralized GMPLS-based CMS architecture and on the interactions between its modules and the CDS. In particular, the CDS decisions rely on a database updated by CMS protocols (i.e., by OSPF - TE) to grasp information about network configuration and resources availability. Unfortunately, OSPF - TE may not be able to timely update the CDS-database. To address this issue, the paper presents two CDS-database updating policies and compares their performance through simulations. Finally, a set of open issues and challenges is detailed in order to provide an input for a deep analysis of the presented CMS architecture.

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光通信研究

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