无线传感器网络的自适应睡眠时间管理模型

2015 24th International Conference on Computer Communication and Networks (ICCCN) Pub Date : 2015-10-05 DOI:10.1109/ICCCN.2015.7288372

E. D. Ayele, Jianjun Wen, Zeeshan Ansar, W. Dargie

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引用次数: 6

摘要

无线传感器网络的能量消耗影响其寿命，进而影响网络的范围和可用性。大多数现有的或提议的MAC协议允许节点指定一个占空比，以便它们可以在大部分时间内休眠以节省能源。然而，只有很少的模型可以确定睡眠阶段的适当时间和持续时间。现有的方法依赖于预先计算的睡眠持续时间，或者很难在实际平台上实现。我们提出了一个运行时和自适应模型来估计无线传感器节点的睡眠时间和持续时间。我们的模型在中继节点上获取传入和传出数据包的统计数据，然后将其提供给一般排队模型。该模型是轻量级的，可以适用于任何现有的MAC协议。我们已经在TelosB平台和TinyOS环境中实现了我们的模型。我们将我们的模型与两个现有协议(TinyOS LPL MAC和XMAC)集成在一起，并比较了这些协议在使用和不使用我们的模型时的性能。性能评价结果表明，继电器节点能耗降低11.4 ~ 64.8%。网络的总吞吐量提高了24%。此外，我们的模型可以很容易地响应数据包流量速率的变化，同时在不同的流量场景下，数据包的传输可靠性提高了64.5 - 67.4%。

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Adaptive Sleep-Time Management Model for WSNs

The energy consumption of a wireless sensor network affects its lifetime which in turn affects the scope and usefulness of the network. Most existing or proposed MAC protocols enable nodes to specify a duty cycle, so that they can sleep much of the time to save energy. However, only very few models exist to determine the appropriate time and duration of a sleep phase. Existing approaches rely on pre-calculated sleep durations or are difficult to implement on real platforms. We propose a runtime and adaptive model to estimate the sleep time and duration of wireless sensor nodes. Our model takes the statistics of incoming and outgoing packets at a relay node which is then supplied to a general queueing model. The model is lightweight and can be fitted into any existing MAC protocol. We have implemented our model for TelosB platform and TinyOS environment. We integrated our model with two existing protocols (TinyOS LPL MAC and XMAC) and compared the performance of these protocols with and without our model. The performance evaluation results show that the energy consumption of a relay node reduced by 11.4 - 64.8%. The overall throughput of the network increased by up to 24%. Moreover, our model readily responded to changes in packet traffic rate while at the same time increasing the packet transmission reliability by 64.5 - 67.4% for different traffic scenarios.

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来源期刊

2015 24th International Conference on Computer Communication and Networks (ICCCN)

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