Modeling energy consumption in single-hop IEEE 802.11 ad hoc networks

Proceedings. 13th International Conference on Computer Communications and Networks (IEEE Cat. No.04EX969) Pub Date : 2004-10-11 DOI:10.1109/ICCCN.2004.1401671

Marcelo M. Carvalho, C. Margi, K. Obraczka, J. Garcia-Luna-Aceves

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引用次数: 88

Abstract

This paper presents an analytical model to predict energy consumption in saturated IEEE 802.11 single-hop ad hoc networks under ideal channel conditions. The model we introduce takes into account the different operational modes of the IEEE 802.11 DCF MAC, and is validated against packet-level simulations. In contrast to previous works that attempted to characterize the energy consumption of IEEE 802.11 cards in isolated, contention-free channels (i.e., single sender/receiver pair), this paper investigates the extreme opposite case, i.e., when nodes need to contend for channel access under saturation conditions. In such scenarios, our main findings include: (1) contrary to what most previous results indicate, the radio's transmit mode has marginal impact on overall energy consumption, while other modes (receive, idle, etc.) are responsible for most of the energy consumed; (2) the energy cost to transmit useful data increases almost linearly with the network size; and (3) transmitting large payloads is more energy efficient under saturation conditions

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在单跳IEEE 802.11自组织网络中建模能耗

本文提出了一种预测理想信道条件下饱和IEEE 802.11单跳自组织网络能量消耗的分析模型。我们引入的模型考虑了IEEE 802.11 DCF MAC的不同工作模式，并通过分组级仿真进行了验证。与之前试图描述IEEE 802.11卡在隔离、无争用通道(即单个发送方/接收方对)中的能耗的工作相反，本文研究了极端相反的情况，即当节点需要在饱和条件下争夺通道访问时。在这种情况下，我们的主要发现包括:(1)与大多数先前的结果相反，无线电的发射模式对总体能耗的影响很小，而其他模式(接收、空闲等)消耗了大部分能量;(2)传输有用数据的能量成本几乎随网络规模线性增加;(3)在饱和条件下发射大载荷更节能

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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Proceedings. 13th International Conference on Computer Communications and Networks (IEEE Cat. No.04EX969)

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