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引用次数: 9
摘要
连接需求的强劲增长,提高服务可用性和质量的压力,以及设备和服务的不断创新是电信行业面临的趋势。今天的客户要求很高,而且容易更换服务提供商。满足或超越客户期望是整个行业面临的一个重大且日益增长的挑战。核心网MPLS (Multiprotocol Label Switching)技术通过在冗余核心链路上分担流量,提供多业务支持和高性能。它提供了灵活性和可伸缩性。提高网络可用性水平的机制的引入使MPLS网络监控成为一项具有挑战性的任务。在本文中,我们提出了一种基于流量工程的MPLS网络隧道性能实时监控算法,使运营商能够详细了解网络运行情况,从而提供评估网络性能和简化故障排除的能力。该算法对每条MPLS TE隧道的抖动、时延、丢包、带宽利用率和最大传输单元(Maximum Transmission Unit, MTU)值进行测量和采集。
Network performance monitoring within MPLS traffic engineering enabled networks
Robust growth in connectivity demand, pressure to increase service availability and quality, as well as continuous innovation in devices and services are trends facing the telecommunications industry. Today's customers are demanding and prone to changing the service provider. Meeting or exceeding customer expectations is a major and growing challenge across the industry. Multiprotocol Label Switching (MPLS) technology in the core network provides multiservice support and high performance by load-sharing traffic over redundant core links. It offers flexibility and scalability. The introduction of mechanisms for raising the level of network availability has turned MPLS network monitoring into a challenging task. In this paper, we propose an algorithm which ensures real-time tunnel performance monitoring in MPLS networks with Traffic Engineering, giving the operator detailed insight into the network operation, and thus providing the ability to evaluate network performance and simplify troubleshooting. The proposed algorithm measures and collects jitter, delay, packet loss, bandwidth usage and Maximum Transmission Unit (MTU) values for each MPLS TE tunnel.
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