Reliable multicast routing with uncertain sources

Junjie Xie, Deke Guo, Zhiyao Hu, Jie Wu, Tao Chen, Honghui Chen
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引用次数: 3

Abstract

Multicast can jointly utilize the network resources when delivering the same content to a set of destinations; hence, it can effectively reduce the consumption of network resources more than individual unicast. The source of a multicast, however, does not need to be in a specific location as long as certain constraints are satisfied. This means the multicast can have uncertain sources, which could reduce the network bandwidth consumption more than a traditional multicast. Meanwhile, a reliable multicast becomes crucial in providing reliable services for many important applications. However, a prior minimal cost forest (MCF) for such a new multicast is not designed to support reliable transmissions. In this paper, we propose a novel reliable multicast routing with uncertain sources named ReMUS. To the best of our knowledge, we are the first to study the reliable multicast under uncertain sources. The goal is to minimize the sum of the transfer cost and the recovery cost, although finding such a ReMUS is very challenging. Thus, we design a source-based multicast method to solve this problem by exploiting the flexibility of uncertain sources when no recovery nodes exist in the network. Furthermore, we design a general multicast method to jointly exploit the benefits of uncertain sources and recovery nodes to minimize the total cost of ReMUS. We conduct extensive evaluations based on the real topology of Internet2. The results indicate that our methods can efficiently realize the reliable and bandwidth-efficient multicast with uncertain sources, irrespective of the settings of networks and multicasts.
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具有不确定源的可靠组播路由
组播在向一组目的地发送相同内容时,可以共同利用网络资源;因此,它比单个单播更能有效地减少网络资源的消耗。然而,只要满足某些约束条件,多播的源不必位于特定位置。这意味着多播可以有不确定的源,这可以比传统的多播更少地减少网络带宽消耗。与此同时,可靠的组播对于为许多重要应用提供可靠的服务至关重要。然而,这种新的组播的先验最小成本森林(MCF)并不是为了支持可靠的传输而设计的。本文提出了一种具有不确定源的可靠组播路由ReMUS。在我们所知的范围内,我们首次研究了不确定源下的可靠组播。目标是最小化转移成本和回收成本的总和,尽管找到这样的ReMUS非常具有挑战性。因此,我们设计了一种基于源的多播方法,利用不确定源在网络中不存在恢复节点时的灵活性来解决这一问题。此外,我们设计了一种通用组播方法,共同利用不确定源和恢复节点的优势,使ReMUS的总成本最小化。我们根据Internet2的真实拓扑结构进行了广泛的评估。结果表明,无论网络和组播的设置如何,我们的方法都能有效地实现不确定源下的可靠和带宽效率高的组播。
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