Throughput-Oriented MAC for Mobile Networks with Variable Packet Sizes

IF 7.5

Digital Communications and Networks Pub Date : 2006-01-01 DOI:10.1109/SAHCN.2006.288498

Fan Wang, O. Younis, M. Krunz

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引用次数: 6

Abstract

Improving the network throughput is a primary objective in mobile ad hoc networks (MANETs), which is motivated by the over-conservative nature of the 802.11 standard. Transmission power control (TPC) was proposed for improving spatial reuse and reducing energy consumption in MANETs. Previous TPC protocols either incur extra hardware cost (e.g., require multiple transceivers) or do not fully exploit the potential of power control. In this work, we propose distributed, single-channel MAC protocols for MANETs that exploit TPC and account for different packet sizes in the system to further maximize spatial reuse. We model channel contention in the network as a non-cooperative game. Multiple potential transmitters are first involved in an admission phase which enables terminals to compute the transmission powers that achieve a Nash equilibrium (NE) for a given utility function. Subsequently, successful contenders in the same neighborhood can simultaneously proceed with their transmissions. Simulation results show that our protocols significantly improve the network throughput (in terms of transmitted bits/second or the number of admitted contenders) over previously proposed schemes. Our results also indicate that these gains do not require additional energy cost

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面向吞吐量的可变分组大小移动网络MAC

提高网络吞吐量是移动自组织网络(manet)的主要目标，其动机是802.11标准的过度保守性。提出了传输功率控制(TPC)，以提高空间复用和降低能量消耗。以前的TPC协议要么会产生额外的硬件成本(例如，需要多个收发器)，要么不能充分利用功率控制的潜力。在这项工作中，我们提出了用于manet的分布式单通道MAC协议，该协议利用TPC并考虑系统中不同的数据包大小，以进一步最大化空间重用。我们将网络中的信道争用建模为非合作博弈。多个潜在发送器首先参与允许阶段，该阶段使终端能够计算实现给定效用函数的纳什均衡(NE)的传输功率。随后，在同一街区成功的竞争者可以同时进行他们的传输。仿真结果表明，与之前提出的方案相比，我们的协议显著提高了网络吞吐量(以传输比特/秒或允许的竞争者数量为标准)。我们的研究结果还表明，这些收益不需要额外的能源成本

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来源期刊

Digital Communications and Networks

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发文量

158