Optimal Transmission Thresholds for QoS Guarantees in WSNs

Q2S and Security for Wireless and Mobile Networks Pub Date : 2018-10-25 DOI:10.1145/3267129.3267137

Edgar Romo-Montiel, M. E. Rivero-Angeles, H. Molina-Lozano, G. Rubino, Ricardo Menchaca-Méndez, R. Menchaca-Méndez

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引用次数: 2

Abstract

In Wireless Sensor Networks (WSNs), each node typically transmits several control and data packets in a contention fashion to the sink. In this work, we mathematically analyze and study three unscheduled transmission schemes for control packets in a cluster-based architecture named Fixed Scheme (FS), Adaptive by Estimation Scheme (AES) and Adaptive by Gamma Scheme (AGS), in order to offer QoS guarantees in terms of system lifetime (related to energy consumption) and reporting delay (related to cluster formation delay). In the literature, different adaptive schemes have been proposed, and also there is research about the appropriate value selection of the transmission probability for the cluster formation. However, it largely overlooked the minimum and maximum values for the transmission probability that entails the best performance. Based on the numerical results, we show that the threshold values are just as important in the system design as the actual value of the transmission probability in adaptive schemes (AES and AGS), to achieve QoS guarantees.

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wsn中QoS保证的最优传输阈值

在无线传感器网络(wsn)中，每个节点通常以争用方式向接收器发送多个控制数据包和数据包。在这项工作中，我们从数学上分析和研究了基于集群的架构中控制数据包的三种非计划传输方案，称为固定方案(FS)，估计自适应方案(AES)和伽马自适应方案(AGS)，以便在系统生命周期(与能耗相关)和报告延迟(与集群形成延迟相关)方面提供QoS保证。文献中提出了不同的自适应方案，并对集群形成时传输概率的合适取值进行了研究。然而，它在很大程度上忽略了传输概率的最小值和最大值，从而获得最佳性能。数值结果表明，在自适应方案(AES和AGS)中，阈值与传输概率的实际值在系统设计中同样重要，以实现QoS的保证。

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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Q2S and Security for Wireless and Mobile Networks

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