Cross-layer Optimal Decision Policies for Spatial Diversity Forwarding in Wireless Ad Hoc Networks

2006 IEEE International Conference on Mobile Ad Hoc and Sensor Systems Pub Date : 2006-10-09 DOI:10.1109/MOBHOC.2006.278552

J. Ai, A. Abouzeid, Z. Ye

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引用次数: 12

Abstract

In order to adapt to the time-varying nature of wireless channels, various channel-adaptive schemes have been proposed to exploit inherent spatial diversity in wireless ad hoc networks where there are usually alternate forwarding nodes available at a given forwarding node. However, existing schemes along this line are designed based on heuristics, implying room for performance enhancement. Thereby, to seek a theoretical foundation for improving spatial diversity gain, we formulate the selection of the next-hop relay as a sequential decision problem and derive a general "optimal stopping relaying (OSR)" framework for designing such spatial-diversity schemes. As a particular example, assuming Rayleigh fading channels, we implement an OSR strategy to optimize information efficiency (IE) in a protocol stack consisting of greedy perimeter stateless routing (GPSR) and IEEE 802.11 MAC protocols. We present an analysis of the algorithm for a single node. In addition, we perform extensive simulations (using QualNet) to evaluate the end-to-end performance of the proposed forwarding strategy. The results demonstrate the superiority of OSR over other existing schemes

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无线Ad Hoc网络空间分集转发的跨层最优决策策略

为了适应无线信道的时变特性，人们提出了各种信道自适应方案来利用无线自组织网络中固有的空间多样性，其中在给定的转发节点上通常存在备选转发节点。然而，沿着这条路线的现有方案是基于启发式设计的，这意味着性能增强的空间。因此，为了寻求提高空间分集增益的理论基础，我们将下一跳中继的选择表述为一个顺序决策问题，并推导出设计这种空间分集方案的通用“最优停止中继(OSR)”框架。作为一个特殊的例子，假设瑞利衰落信道，我们实现了一个OSR策略来优化由贪婪周界无状态路由(GPSR)和IEEE 802.11 MAC协议组成的协议栈中的信息效率(IE)。我们给出了一个单节点的算法分析。此外，我们进行了大量的模拟(使用QualNet)来评估所提出的转发策略的端到端性能。结果表明OSR方案优于其他现有方案

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2006 IEEE International Conference on Mobile Ad Hoc and Sensor Systems

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