Probing-based two-hop relay with limited packet redundancy

2012 IEEE 13th International Conference on High Performance Switching and Routing Pub Date : 2012-06-24 DOI:10.1109/HPSR.2012.6260834

Jiajia Liu, Juntao Gao, Xiaohong Jiang, Hiroki Nishiyama, N. Kato

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引用次数: 4

Abstract

Due to their simplicity and efficiency, the two-hop relay algorithm and its variants serve as a class of attractive routing schemes for mobile ad hoc networks (MANETs). With the available two-hop relay schemes, a node, whenever getting an opportunity for transmission, randomly probes only once a neighbor node for the possible transmission. It is notable that such single probing strategy, although simple, may result in a significant waste of the precious transmission opportunities in highly dynamic MANETs. To alleviate such limitation for a more efficient utilization of limited wireless bandwidth, this paper explores a more general probing-based two-hop relay algorithm with limited packet redundancy. In such an algorithm with probing round limit τ and packet redundancy limit f, each transmitter node is allowed to conduct up to τ rounds of probing for identifying a possible receiver and each packet can be delivered to at most f distinct relays. A general theoretical framework is further developed to help us understand that under different setting of τ and f, how we can benefit from multiple probings in terms of the per node throughput capacity.

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有限包冗余的基于探测的两跳中继

由于其简单和高效，两跳中继算法及其变体成为移动自组织网络(manet)中一类有吸引力的路由方案。在现有的两跳中继方案中，一个节点只要有传输的机会，就随机地只探测一次可能传输的邻居节点。值得注意的是，这种单一探测策略虽然简单，但可能导致高度动态的manet中宝贵的传输机会的严重浪费。为了减轻这种限制，更有效地利用有限的无线带宽，本文探索了一种更通用的基于探测的两跳中继算法，该算法具有有限的分组冗余。在这种具有探测轮限制τ和数据包冗余限制f的算法中，允许每个发送节点进行多达τ轮的探测以识别可能的接收器，并且每个数据包最多可以传递给f个不同的中继。进一步开发了一个一般的理论框架，以帮助我们理解在不同的τ和f设置下，我们如何从每个节点的吞吐量方面的多次探测中获益。

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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2012 IEEE 13th International Conference on High Performance Switching and Routing

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