无线网状网络中具有物理干扰的高效分布式调度的尖叫方法

Gurashish Singh Brar, D. Blough, P. Santi
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引用次数: 34

摘要

目前,CSMA/CA信道接入方案已不能很好地满足无线网状网络的高流量需求。增加流量承载能力的一种可能方法是将空间TDMA (STDMA)方法与物理干扰模型结合使用,这种方法比CSMA/CA所基于的协议干扰模型允许更积极的调度。虽然最近提出了一种有效的具有物理干扰的STDMA集中解决方案,但迄今为止还没有引入令人满意的分布式方法。本文首先证明了在物理干扰模型下,没有一种局部分布式算法可以解决建立可行调度的问题。受此启发,我们设计了一个全局原语,称为SCREAM,用于在迭代分布式调度过程中验证调度的可行性。在此基础上,提出了物理干扰模型下的两种高效分布式调度协议,并证明了其中一种协议的近似界。我们还提供了广泛的数据包级仿真结果,表明我们的协议实现的调度长度非常接近集中式算法的调度长度,并且具有适用于网状网络的运行时间。
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The SCREAM Approach for Efficient Distributed Scheduling with Physical Interference in Wireless Mesh Networks
It is known that CSMA/CA channel access schemes are not well suited to meet the high traffic demand of wireless mesh networks. One possible way to increase traffic carrying capacity is to use a spatial TDMA (STDMA) approach in conjunction with the physical interference model, which allows more aggressive scheduling than the protocol interference model on which CSMA/CA is based. While an efficient centralized solution for STDMA with physical interference has been recently proposed, no satisfactory distributed approaches have been introduced so far. In this paper, we first prove that no localized distributed algorithm can solve the problem of building a feasible schedule under the physical interference model. Motivated by this, we design a global primitive, called SCREAM, which is used to verify the feasibility of a schedule during an iterative distributed scheduling procedure. Based on this primitive, we present two distributed protocols for efficient, distributed scheduling under the physical interference model, and we prove an approximation bound for one of the protocols. We also present extensive packet-level simulation results, which show that our protocols achieve schedule lengths very close to those of the centralized algorithm and have running times that are practical for mesh networks.
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