Innocent Mpawenimana, A. Pegatoquet, Valérle Roy, Laurent Rodriguez, C. Belleudy
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引用次数: 11
摘要
能源负荷预测在基于能量收集系统的智能家居的能源生产和消费决策过程中起着核心作用。然而,由于用于预测的时间序列数据具有线性和非线性的特性,因此预测能源负荷是一个难题。本文提出了一种基于LSTM和ARIMA模型的智能家居每日能源负荷预测系统。为了提高能源负荷预测的准确性,我们提出了一种新的数据预处理算法STDAN (Same Time a Day Ago or Next)来填补缺失值。将该技术与使用先前值或平均值的已知技术进行比较。并将LSTM与ARIMA进行了中短期负荷预测的比较。结果表明,LSTM在所有情况下都优于ARIMA。最后,我们还用一个新的数据集评估了基于LSTM的训练模型,该模型提供了大约80%的准确率。
A comparative study of LSTM and ARIMA for energy load prediction with enhanced data preprocessing
Energy load prediction plays a central role in the decision-making process of energy production and consumption for smart homes with systems based on energy harvesting. However, forecasting energy load turned out to be a difficult problem since time series data used for the prediction involve both linear and non-linear properties. In this paper, we proposed a system which can predict a daily future energy load in a smart home based on LSTM and ARIMA models. To improve the energy load forecasting accuracy, we propose a new data preprocessing algorithm called STDAN (Same Time a Day Ago or Next) to fill the missing values. This technique is compared with well-known techniques using previous or mean values. A comparison between LSTM and ARIMA is provided for short and medium-term load forecasting. Results show that LSTM outperforms ARIMA in all cases. Finally, we also evaluated our training model based on LSTM with a new data set and the model provides an around 80% accuracy.
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