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引用次数: 10
摘要
特设网络不依赖于接入点或基站等任何基础设施,即使在地理或时间限制的情况下也可以快速、廉价地部署。因此,自组织网络在军事和灾难情况下以及在传感器网络或会议等商业用途上都有很好的应用。在自组织网络中,每个节点既充当路由器又充当主机。自组织网络的拓扑结构是动态变化的,这给设计有效的路由协议带来了困难。如今,越来越多的无线设备被使用,可以形成大型的自组织网络。为自组织网络设计一种可扩展的路由协议是非常重要的。本文提出了基于cell ID管理系统(ARPC)的基于锚点的路由协议,这是一种可扩展的ad hoc网络路由协议。ARPC是一种混合路由协议,它结合了基于表的路由策略和地理路由策略的优点,并且避免了gps(全球定位系统)(E. D. Kaplan, 1996)支持的负担。仿真结果表明,ARPC算法具有较高的效率和较好的扩展性。特别是对于大型网络(1000和1600节点),ARPC比AODV实现了21%的数据包交付率,并且开销降低了19%。这表明ARPC比AODV具有更好的可扩展性。
An anchor-based routing protocol with cell ID management system for ad hoc networks
Ad hoc networks, which do not rely on any infrastructure such as access points or base station, can be deployed rapidly and inexpensively even in situations with geographical or time constraints. So ad hoc networks have attractive applications in both military and disaster situations and also in commercial uses like sensor networks or conferencing. In ad hoc networks, each node acts both as a router and as a host. The topology of an ad hoc network may change dynamically, which makes it difficult to design an efficient routing protocol. Nowadays, more and more wireless devices are being used, which can form large ad hoc networks. It is important to design a scalable routing protocol for ad hoc networks. In this paper, we propose anchor-based routing protocol with cell ID management system (ARPC), a scalable routing protocol for ad hoc networks. ARPC is a hybrid routing protocol, which combines the advantages of table-based routing strategy and geographic routing strategy, and avoids the burden-GPS (Global Positioning System) (E. D. Kaplan, 1996) support. Simulation results show that ARPC is efficient and scales well to large networks. Especially for large networks (1000 and 1600 nodes), ARPC achieves 21 percent higher packet delivery ratio than AODV, and has 19 percent lower overhead. This denotes that ARPC has better scalability than AODV.
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