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引用次数: 1
摘要
交会覆盖网络(RvON)使中小型服务提供商(SP)能够发布其服务的广告。此外,它还允许最终用户发现与这些广告相关的服务。提出了一种自主K-交错分步构建方案(K. Ragab and A. Yonezawa, 2006),该方案将RvON自主组织为RvON- cluster,其中(K+1)为RvON中存储相同广告的任意两个集合节点之间的物理跳数。因此,从不同地区访问的终端用户能够在恒定的K物理跳数内发现服务的广告。然而,在密集网络中,rvon簇的直径越大,对物理链路的压力越大,发现服务广告的延迟也越大。本文将RvON-Cluster的扩展限制在一个特定的直径D内,每个RvON-Cluster在K个物理跳上最多有D个逻辑跳。因此,毫无疑问,最终用户能够在合理的存储和带宽消耗下,在K个物理跳中有效地发现D个逻辑跳内的服务广告
\leK, D\ge-Interleaving Structuring Technique for Peer-Peer Overlay Network
Rendezvous overlay network (RvON) enables the smaller/medium service providers (SP) to publish their services' advertisements. Moreover, it allows end-users to discover the services associated with these advertisements. An autonomic K-interleaving step-step construction scheme is proposed (K. Ragab and A. Yonezawa, 2006) that autonomously organizes RvON into RvON-Clusters, where (K+1) is the physical number of hops between any two rendezvous nodes stored the same advertisement in RvON. Thus, end-users accessing from different areas are able to discover services' advertisements within a constant K physical number of hops. However in dense networks, increasing the size of RvON-Clusters induces a long diameter that manifests high stress per physical links and high delay to discover service's advertisement. This paper limits the expansion of RvON-Cluster within a specific diameter D. Each RvON-Cluster is organized with at most D logical hops over K physical hops. Thus, doubtless end-users are able to efficiently discover services' advertisements within D logical hops over K physical hops with reasonable storage and bandwidth consumption
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