Self-organizing, self-healing wireless networks

2000 IEEE International Conference on Personal Wireless Communications. Conference Proceedings (Cat. No.00TH8488) Pub Date : 2000-12-17 DOI:10.1109/ICPWC.2000.905836

C. Elliott, B. Heile

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引用次数: 50

Abstract

Self-organizing, self-healing networks, also called "ad hoc" networks, are perhaps the most exciting new trend in networking research and development. Every node in such a network has sufficient intelligence to continuously sense and discover other nearby nodes, dynamically determine the optimal path for forwarding data packets from itself hop by hop through the network to any other node in the network, and automatically heal any ruptures in the network fabric that are caused by ongoing movement of the nodes themselves, changes in RF propagation, destruction of nodes, etc. In essence; one need merely launch such radio nodes into some space and they will not only organize themselves into a network but also adapt continuously to changes in the network's connectivity. The field is currently evolving at "Internet speed" - the first large-scale systems are now being fielded into the USA military and yet many of the field's research fundamentals are at present only very poorly understood. This paper begins with an example that introduces some of the fundamental issues for ad hoc networks (hidden terminals, channel access, mobility, scalability, and power constraints). It then discusses the two dominant approaches in current ad hoc networking technologies, "proactive" and "on-demand" path discovery, and compares the strengths and weaknesses of each approach. The paper then presents two brief case studies with which the authors were intimately involved - of a 400-node, terrestrial, vehicle-based system and of a high-capacity voice and data network deployed among drone aircraft - and concludes with highlights of the current research topics in the field.

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自组织、自修复的无线网络

自组织、自修复网络，也被称为“特设”网络，可能是网络研究和开发中最令人兴奋的新趋势。这种网络中的每个节点都具有足够的智能，可以不断地感知和发现附近的其他节点，动态地确定数据包从自身一跳一跳地通过网络转发到网络中任何其他节点的最优路径，并自动修复由于节点自身的持续移动、射频传播的变化、节点的破坏等导致的网络结构破裂。本质上;人们只需要将这样的无线电节点发射到某个空间，它们不仅将自己组织成一个网络，而且还能不断适应网络连接的变化。该领域目前正在以“互联网速度”发展——第一批大规模系统现在正在美国军队中部署，然而该领域的许多研究基础目前还知之甚少。本文从一个示例开始，该示例介绍了自组织网络的一些基本问题(隐藏终端、通道访问、移动性、可伸缩性和功率限制)。然后讨论了当前特别网络技术中的两种主要方法，“主动”和“按需”路径发现，并比较了每种方法的优缺点。然后，本文介绍了作者密切参与的两个简短案例研究- 400节点，地面，基于车辆的系统和部署在无人机中的高容量语音和数据网络-并总结了该领域当前研究主题的亮点。

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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2000 IEEE International Conference on Personal Wireless Communications. Conference Proceedings (Cat. No.00TH8488)

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