A Relative Ad hoc Localization Scheme using Optical Wireless

2007 2nd International Conference on Communication Systems Software and Middleware Pub Date : 2007-07-09 DOI:10.1109/COMSWA.2007.382580

J. Akella, M. Yuksel, S. Kalyanaraman

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引用次数: 16

Abstract

Directional communication (for example, using directional antennas or free-space optics) has the potential to dramatically increase capacity reuse in multi-hop wireless mesh and ad hoc networks. What is less appreciated is that directional communications can also simplify network layer functions. In this paper, we show how directionality (combined with ranging) can be used to construct a scalable, fully distributed localization system and assign "relative" coordinates to each node (without the need for GPS) that can be used by highly scalable geographic routing systems. We show that range and orientation-based localization schemes (ROL) scale better than range-only or orientation-only localization schemes (e.g., triangulation) for such applications. We present simulations studying scalability, effect of errors (both range and directionality) and compare performance with triangulation methods. Finally, we discuss how such an ROL scheme can be realized with optical wireless nodes, based upon our ongoing efforts to build ad hoc and meshed networks using both FSO and RF technologies.

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一种基于光无线的相对自组织定位方案

定向通信(例如，使用定向天线或自由空间光学)具有在多跳无线网格和自组织网络中显著增加容量重用的潜力。不太受重视的是，定向通信还可以简化网络层的功能。在本文中，我们展示了如何使用方向性(结合测距)来构建一个可扩展的、完全分布式的定位系统，并为每个节点分配“相对”坐标(不需要GPS)，这些坐标可用于高度可扩展的地理路由系统。我们表明，对于此类应用，基于距离和方向的定位方案(ROL)比仅距离或仅方向的定位方案(例如三角测量)具有更好的可伸缩性。我们提出了模拟研究可扩展性，误差(范围和方向性)的影响，并比较性能与三角测量方法。最后，基于我们正在进行的使用FSO和RF技术构建自组织和网状网络的努力，我们讨论了如何使用光无线节点实现这样的ROL方案。

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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2007 2nd International Conference on Communication Systems Software and Middleware

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