太阳能无线传感器节点能量预测的复合移动平均算法

M. Al-Omary, R. Aljarrah, Aiman Albatayneh, M. Jaradat
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引用次数: 5

摘要

近年来,太阳能供电无线传感器节点的运行基本上依赖于对预期收获太阳能的预测算法的实现。这些预测算法有助于节约能源。因此,通过利用节省的能源,延长了传感器的使用寿命。在不同的预测算法中,基于移动平均的预测算法以其简单和有限的资源在传感器节点等系统中使用最多。基本的移动平均算法,指数加权移动平均(EWMA),只适用于预测对称日的能量。因此,在天气突然波动时,它显示出显著的预测误差。其他移动平均算法,天气条件移动平均(WCMA)和Pro-Energy显示出相当大的误差,特别是在日落和日出时间,并优先选择最后一个。本文提出了一种新的移动平均算法(EWWC),将两种移动平均算法(EWMA和WCMA)相结合,消除整体日预测误差。夏季和冬季两周,EWWC的平均预测误差分别为(16.3%,20.5%),而(EWMA)和(WCMA)的平均预测误差分别为(21.2%,25.1%)和(17.9%,22.1%)。这意味着两周的EWWC都提高了1.6%。因此,建议将其用于太阳能传感器节点的能量预测。
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A Composite Moving Average Algorithm for Predicting Energy in Solar Powered Wireless Sensor Nodes
Recently, the operation of solar supplied wireless sensor nodes became dependent basically on implementing prediction algorithms for the expected harvested solar energy. These prediction algorithms contribute to saving energy. Thus, extending the lifetime of that sensors through utilizing the saved energy later. Among different prediction algorithms, the moving average based ones are the most used for their simplicity with limited resources in systems like sensor nodes. The basic moving average algorithm, Exponentially Weighted Moving Average (EWMA), is appropriate only to predict energies for symmetric days. Thus, it shows significant prediction error at times of sudden weather fluctuations. The other moving average algorithms, Weather Condition Moving Average (WCMA) and Pro-Energy show considerable errors specifically at sunset and sunrise times with a preference for the last one. This paper proposes a new moving average algorithm, named (EWWC), to eliminate the overall daily prediction error by combining two moving average algorithms (EWMA and WCMA). For two weeks, one in summer and another in winter, EWWC shows an average prediction error of (16.3%, 20.5%) while (EWMA) and (WCMA) show (21.2%, 25.1%) and (17.9%, 22.1%), respectively. This means that EWWC has an improvement of 1.6% in both weeks. Thus, it is recommended to be used for predicting energy in solar-powered sensor nodes.
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