Joint Power Allocation and Transmission Time Selection in Duty-cycled Wireless Sensor Networks

2018 Global Information Infrastructure and Networking Symposium (GIIS) Pub Date : 2018-10-01 DOI:10.1109/GIIS.2018.8635725

Christos N. Efrem, A. Panagopoulos

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引用次数: 2

Abstract

Energy-aware resource allocation plays an important role in battery-limited wireless sensor networks (WSNs), as it improves network performance, in terms of energy savings, and prolongs network lifetime as well. In this paper, we study a duty-cycled WSN where the sensor nodes transmit their data simultaneously to a central access point and then return to sleep mode (this process is repeated in each time period). In particular, we propose a joint power allocation and transmission time selection algorithm in order to minimize the maximum energy consumption of the sensor nodes, under power and time constraints as well as quality-of-service (QoS) requirements. In the problem formulation, we also take into account the circuit energy consumption of each sensor node. Moreover, the proposed algorithm, which is based on a successive convex approximation method, converges very quickly and achieves a Karush-Kuhn-Tucker (KKT) solution for the problem. Finally, numerical results reveal that the proposed technique provides significant performance gain when compared to a baseline scheme.

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无线传感器网络中联合功率分配与传输时间选择

在电池有限的无线传感器网络(WSNs)中，能量感知的资源分配具有重要的作用，因为它可以提高网络性能、节约能源并延长网络寿命。在本文中，我们研究了一个占空比WSN，其中传感器节点将其数据同时传输到中心接入点，然后返回到睡眠模式(该过程在每个时间段重复)。特别是，我们提出了一种联合功率分配和传输时间选择算法，以便在功率和时间约束以及服务质量(QoS)要求下最小化传感器节点的最大能量消耗。在问题的表述中，我们还考虑了每个传感器节点的电路能耗。此外，该算法基于连续凸逼近方法，收敛速度非常快，并实现了问题的Karush-Kuhn-Tucker (KKT)解。最后，数值结果表明，与基线方案相比，该技术提供了显着的性能增益。

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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2018 Global Information Infrastructure and Networking Symposium (GIIS)

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