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BO-STA-LSTM: Building energy prediction based on a Bayesian optimized spatial-temporal attention enhanced LSTM method

Guannan Li, Yong Wang, Chengliang Xu, Jian Wang, Xi Fang, Chenglong Xiong

2024Developments in the Built Environment32 citationsDOIOpen Access PDF

Abstract

In predicting building energy (affected by seasons), there are issues like inefficient hyperparameter optimization and inaccurate predictions, it is unclear whether spatial and temporal attention improves performance. This study proposes a method based on Bayesian Optimization (BO), Spatial-Temporal Attention (STA), and Long Short-Term Memory (LSTM). Seven improved LSTM models (BO-LSTM, SA-LSTM, TA-LSTM, STA-LSTM, BO-SA-LSTM, BO-TA-LSTM, and BO-STA-LSTM) are compared with LSTM and the impacts of seasonal variations on BO-STA-LSTM are analysed using different sample types and time domain analysis. To further demonstrate the efficiency of the proposed method, comparisons with convolutional neural network (CNN) and temporal convolutional network (TCN) are performed, and followed by validation with new datasets. The findings indicate that adding STA and BO to LSTM enhances the average of prediction performance by 0.0885. BO alone contributes 0.0717, while adding attention improves 0.0560. BO-STA-LSTM achieves higher prediction accuracy for similar test and training samples or a test sample size of 14016, effectively capturing seasonal, trend, and peak energy patterns. Additionally, BO-STA-LSTM outperforms CNN and TCN, demonstrating superior prediction accuracy.

Topics & Concepts

Computer scienceBayesian probabilityArtificial intelligenceEnergy (signal processing)Machine learningPattern recognition (psychology)StatisticsMathematicsBuilding Energy and Comfort OptimizationTraffic Prediction and Management TechniquesEnergy Load and Power Forecasting