Opportunistic Routing in Wireless Networks

Found. Trends Netw. Pub Date : 2016-11-23 DOI:10.1561/1300000021

T. Javidi, Eric Van Buhler

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引用次数: 7

Abstract

Wireless multi-hop networks have become an important part of many modern communication systems. Opportunistic routing aims to overcome the deficiencies of conventional routing on wireless multi-hop networks, by specifically utilizing wireless broadcast opportunities and receiver diversity. Opportunistic routing algorithms, which are specifically optimized to incorporate into the routing decisions a model of wireless transmission, take advantage of scheduling, multi-user, andreceiver diversity gains and result in significant reduction in the expected cost of routing per packet. The ability of the algorithm to take advantage of the aspects of wireless transmission, however, depends on the scalability and the additional overhead associated with the opportunistic routing as well as the availability of side information regarding wireless channel statistics, topology, etc. This monograph sheds light on the performance gains associated with incorporating into the routing strategy the nature of wireless transmission.This monograph first provides an overview of various opportunistic distance-vector algorithms that have been developed to incorporate wireless transmission and routing opportunities. Furthermore, an optimal opportunistic distance metric is proposed whose performance is examined against the performance of several routing algorithms from the literature. The performance is examined first in analytical examples, then via simulation to identify the strengths of the optimal opportunist routing algorithm. To allow for a scalable and distributed solution, the distributed computation of this optimal distance-metric is provided. The performance of a distributed implementation of the optimal opportunistic routing algorithm is also examined via simulation. In addition to the construction of the opportunistic schemes in centralized and distributed fashions, this monograph also addresses how learning the wireless medium can be efficiently incorporated in the structure of routing algorithm. Finally, this monograph examines the dynamic congestion-based distance metric and its performance against other congestion aware solutions in the literature.

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无线网络中的机会路由

无线多跳网络已成为许多现代通信系统的重要组成部分。机会路由的目的是克服传统路由在无线多跳网络上的不足，具体利用无线广播机会和接收机的多样性。机会路由算法是专门针对无线传输模型的路由决策进行优化的，它利用了调度、多用户和接收器多样性的优势，并显著降低了每个数据包路由的预期成本。然而，该算法利用无线传输方面的能力取决于可伸缩性和与机会路由相关的额外开销，以及与无线信道统计、拓扑等相关的侧信息的可用性。本专著阐明了将无线传输的性质纳入路由策略所带来的性能提升。本专著首先提供了各种机会距离矢量算法的概述，这些算法已被开发用于合并无线传输和路由机会。此外，提出了一个最佳机会距离度量，并将其性能与文献中几种路由算法的性能进行了比较。首先在分析示例中检查性能，然后通过仿真来确定最优机会主义路由算法的优势。为了允许可扩展和分布式解决方案，提供了这种最佳距离度量的分布式计算。通过仿真验证了分布式实现的最优机会路由算法的性能。除了以集中式和分布式方式构建机会方案外，本专著还讨论了如何将无线媒体的学习有效地纳入路由算法的结构中。最后，本专题研究了动态的基于拥塞的距离度量及其与文献中其他拥塞感知解决方案的性能。

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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Found. Trends Netw.

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