Yuto Sekin, Noriki Uchida, Y. Shibata, N. Shiratori
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引用次数: 5
摘要
本文引入了基于动态网络重构方法的软件定义网络框架,以提高网络的连通性。我们的网络系统由多个移动路由器组成,基于现有的无线局域网,包括IEEE802.11b, g, j, n, IEEE802.16 (WiMAX),蜂窝网络,卫星IP网络和绿色能源。这些无线网络通过OpenFlow Switch互联,其链路和路由由OpenFlow Controller管理。根据需要的网络特性,如电磁场强度、吞吐量、时延、丢包率、通信距离等,选择合适的通信链路和路由。使用OpenFlow框架作为软件定义架构和绿色能源,即使部分网络基础设施因灾害而受损,用户也可以继续在灾区发送/接收灾害信息。本文利用现有的不同无线局域网设计并实现了一个灾害信息无线网络,并构建了一个原型系统来评估移动路由器的性能。
Disaster Information Network Based on Software Defined Network Framework
In this paper, we introduce Software Defined Network framework based on dynamic network reconfiguration method to improve the connectivity. Our network system is consisted of multiple mobile routers based on currently available wireless LANs including IEEE802.11b, g, j, n, IEEE802.16 (WiMAX), cellular networks, satellite IP network and green energy. Those wireless networks are interconnected by OpenFlow Switch and their links and routes are managed by OpenFlow Controller. The proper communication links and routes can be selected based on the required network characteristic, such as electro-magnetic field strength, throughput, latency, packet loss rate and communication distance. User can continue to transmit/receive the disaster information in disaster area even though a part of the network infrastructure is damaged due to the disaster using OpenFlow framework as software defined architecture and green based energy. In this paper, we designed and implemented a disaster information wireless network with currently available different wireless LANs and constructed a prototype system to evaluate the performance of the mobile router.
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