V. López, C. Cárdenas, J.A. Hernandez, J. Aracil, M. Gagnaire
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引用次数: 14
摘要
骨干网正在向IP over WDM架构迁移。在这种多层网络配置中,为了向最终用户提供增强的服务质量(QoS),需要有效地结合两层的资源。在现有IP网络的背景下,流感知网络(flow-aware networking, FAN)被提出,目的是为IP路由器内的多路IP流提供QoS保证。FAN基于隐式准入控制和每流调度。在本文中,我们提出了一种新的节点架构,将FAN概念扩展到IP over WDM覆盖网络,其中光和电子资源都可用。引入了三种不同的策略来决定到达节点的IP流必须根据哪些标准从标准FAN架构分叉,然后转发到透明光路直至目的地。从商品投放和排队延迟的角度讨论了这三种策略的性能。
Extension of the Flow-Aware Networking (FAN) architecture to the IP over WDM environment
Backbone networks are migrating to IP over WDM architectures. In such multi-layer network configurations, it is necessary to combine efficiently the resources of both layers in order to provide enhanced quality of service (QoS) to the end-users. In the context of existing IP networks, flow-aware networking (FAN) has been proposed in order to provide QoS guarantees to multiplexed IP flows within an IP router. FAN is based on implicit admission control and per-flow scheduling. In this paper, we propose a new node architecture that extends the FAN concept to IP over WDM overlayed networks in which both optical and electronic resources are available. Three different policies are introduced to decide on which criteria an IP flow arriving at a node must be bifurcated from the standard FAN architecture to be forwarded onto a transparent lightpath up to its destination. The performance of the three proposed policies are discussed in terms of goodput and of queueing delay.
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