Multipath hybrid Ad hoc networks for avionics applications in disaster area

Yasmin Jahir, H. Refai, P. Lopresti, P. Lopresti
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引用次数: 8

Abstract

During natural or manmade disasters, communication infrastructures break down due to massive destruction and subsequent loss of services. Effective rescue operations require a rapidly deployable high bandwidth network to carry out necessary relief efforts involving helicopters up in the sky and first responders on the ground. However, transmitting video and running high bandwidth applications over the network consisting of RF (Radio Frequency) links is challenging. Our aim is to develop an avionics system consisting of a fast, high bandwidth, self configurable and reliable network for rapidly establishing communication among the helicopters and first responders in a disaster area. The concept of using FSO (Free Space Optics) link as the primary and RF as the backup link has been introduced in this paper. We develop an Ad Hoc routing protocol for computing multiple “FSO only” paths to ensure faster communication among the nodes, and using “hybrid paths” consisting of a mixture of FSO and RF links as a backup. Our routing protocol, referred to as Ad hoc On-demand Distance Vector Hybrid (AODVH), has been compared with other Ad hoc routing protocols using ns-2 simulations. It was found that AODVH performs better than others in terms of packet loss, average delay and throughput.
灾区航电应用的多径混合自组织网络
在自然或人为灾害期间,通信基础设施因大规模破坏和随后的服务中断而瘫痪。有效的救援行动需要一个快速部署的高带宽网络来开展必要的救援工作,包括空中的直升机和地面的第一响应者。然而,在由RF(射频)链路组成的网络上传输视频和运行高带宽应用程序是具有挑战性的。我们的目标是开发一种由快速、高带宽、自配置和可靠网络组成的航空电子系统,用于在灾区快速建立直升机和第一响应者之间的通信。本文介绍了以自由空间光学链路为主链路,以射频链路为备链路的概念。我们开发了一种Ad Hoc路由协议,用于计算多个“仅限FSO”路径,以确保节点之间更快的通信,并使用由FSO和RF链路混合组成的“混合路径”作为备份。我们的路由协议,被称为Ad hoc按需距离矢量混合(AODVH),已经使用ns-2模拟与其他Ad hoc路由协议进行了比较。结果表明,AODVH在丢包率、平均时延和吞吐量方面的性能优于其他方法。
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