BGP based Software Defined Networks for Resilient Combat Cloud

2020 Military Communications and Information Systems Conference (MilCIS) Pub Date : 2020-11-10 DOI:10.1109/MilCIS49828.2020.9282379

H. Nguyen, K. Yego, Christos Sioutis

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引用次数: 0

Abstract

It is expected that future tactical warfighting functions, such as tactical picture management and sensor tasking, will be distributed applications running on different systems, connected via a network. Recently, an air force fifth generation network has been proposed where airborne networks are linked with other domains to form a multi-domain network supporting a combat cloud. There are many challenges in building such networks. We propose in this paper a software-defined multi-domain network (SD-DMN) architecture that provides resilient multi-domain networks. Our proposed architecture consists of a software defined communication system to integrate multiple bearers and a Border Gateway Protocol (BGP) control plane for connectivity, traffic and policy management. Using this unique architecture, we develop an algorithm provides multiple reliable transmission paths between any two nodes. Network emulation experiments have been conducted using the Mininet emulation software. The Mininet experiments and prototype implementation validate the feasibility of our proposals.

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基于BGP的弹性作战云软件定义网络

预计未来的战术作战功能，如战术图像管理和传感器任务，将通过网络连接在不同系统上运行分布式应用程序。最近，空军提出了一种第五代网络，其中机载网络与其他域连接，形成支持战斗云的多域网络。建立这样的网络有许多挑战。本文提出了一种软件定义多域网络(SD-DMN)体系结构，提供弹性多域网络。我们提出的架构由一个软件定义的通信系统和一个边界网关协议(BGP)控制平面组成，用于连接、流量和策略管理。利用这种独特的架构，我们开发了一种在任意两个节点之间提供多条可靠传输路径的算法。利用Mininet仿真软件进行了网络仿真实验。Mininet实验和原型实现验证了我们的建议的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2020 Military Communications and Information Systems Conference (MilCIS)

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