Fast path searching algorithm by using neighborhood information for ad hoc network

2010 12th International Workshop on Cellular Nanoscale Networks and their Applications (CNNA 2010) Pub Date : 2010-03-29 DOI:10.1109/CNNA.2010.5430263

T. Nosaka, M. Sato, M. Tanaka

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Abstract

An ad-hoc network is composed only of terminals and can transmit information without infrastructure such as access points. And it transmit information from a source to a destination via multiple hops. However, in an ad-hoc network, the network topology always changes since the terminals may move freely. Therefore the path search from a source to a destination is a difficult problem and a novel path search method for ad-hoc network is necessary. The purpose of our work is to develop a novel path search algorithm for an ad-hoc network which can solve four problems of speed, accuracy, enduring change of network topology, and avoiding loop that is a difficult problem of the path search in this network. The proposed algorithm is composed of the Field conversion (to solve problems of speed and avoiding loop) and the Determining method of next node (to solve problems of speed, accuracy, and enduring change of network topology). To evaluate the proposed algorithm, it is compared with Dijkstra algorithm on simulation using the C++ programming language. As a result, the proposed algorithm can search a path from a source to a destination very fast and some accurately. And it can solve four problems.

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基于邻域信息的ad hoc网络快速路径搜索算法

自组织网络仅由终端组成，可以在没有接入点等基础设施的情况下传输信息。它通过多个跃点将信息从一个源传输到一个目的地。然而，在ad-hoc网络中，由于终端可以自由移动，网络拓扑结构总是变化的。因此，从源点到目的点的路径搜索是一个难题，需要一种新的自组网路径搜索方法。我们的工作目的是开发一种新的自组织网络路径搜索算法，该算法可以解决自组织网络中路径搜索的四个难题:速度、准确性、持久的网络拓扑变化和避免环路。该算法由字段转换(解决速度和避免环路的问题)和下一个节点的确定方法(解决速度、精度和网络拓扑持久变化的问题)组成。为了对所提出的算法进行评价，用c++编程语言将其与Dijkstra算法进行了仿真比较。结果表明，该算法能够快速、准确地搜索出从源点到目的点的路径。它可以解决四个问题。

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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2010 12th International Workshop on Cellular Nanoscale Networks and their Applications (CNNA 2010)

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