TY - JOUR
T1 - Comparing deep learning models for multi energy vectors prediction on multiple types of building
AU - Gao, Lei
AU - Liu, Tianyuan
AU - Cao, Tao
AU - Hwang, Yunho
AU - Radermacher, Reinhard
N1 - Publisher Copyright:
© 2021 Elsevier Ltd
PY - 2021/11
Y1 - 2021/11
N2 - Accurate prediction of building energy consumption plays a critical role in energy sustainability. Most research focuses on single task prediction on one type of building, which makes model less robust when applied to multi energy vectors prediction on multiple building types. Meanwhile, multi vectors prediction is beneficial for detailed and precise management of energy supply in different buildings. This paper leveraged deep learning models to predict hourly-based multi energy vectors on multiple building types. The deep learning model is trained and tested on a large scale of datasets simulated by EnergyPlus over 16 DOE building archetypes in 936 cities of the US. Convolutional neural network and long short-term memory models were constructed and compared in terms of accuracy and computation efficiency under different hyperparameter designs, including layers, input steps, and loss functions. Artificial neural network is the best none-deep learning model and chosen as the baseline for deep learning models. The results also showed that long short-term memory performs the best on this multi vectors prediction for both absolute and relative errors. It predicts 50.7% of the tasks from different building types with CVRMSE lower than 20%. A two-layer structure is good enough for the long short-term memory model, and it is more stable under conditions of different input steps and layer structures. The features reduction through principal component analysis shows a more comprehensive and ample embedding method should be explored. Further research should be carried out to deal with the inconsistent performance of gas-related energy prediction.
AB - Accurate prediction of building energy consumption plays a critical role in energy sustainability. Most research focuses on single task prediction on one type of building, which makes model less robust when applied to multi energy vectors prediction on multiple building types. Meanwhile, multi vectors prediction is beneficial for detailed and precise management of energy supply in different buildings. This paper leveraged deep learning models to predict hourly-based multi energy vectors on multiple building types. The deep learning model is trained and tested on a large scale of datasets simulated by EnergyPlus over 16 DOE building archetypes in 936 cities of the US. Convolutional neural network and long short-term memory models were constructed and compared in terms of accuracy and computation efficiency under different hyperparameter designs, including layers, input steps, and loss functions. Artificial neural network is the best none-deep learning model and chosen as the baseline for deep learning models. The results also showed that long short-term memory performs the best on this multi vectors prediction for both absolute and relative errors. It predicts 50.7% of the tasks from different building types with CVRMSE lower than 20%. A two-layer structure is good enough for the long short-term memory model, and it is more stable under conditions of different input steps and layer structures. The features reduction through principal component analysis shows a more comprehensive and ample embedding method should be explored. Further research should be carried out to deal with the inconsistent performance of gas-related energy prediction.
KW - Building energy
KW - CNN
KW - LSTM
KW - Multi vectors prediction
KW - Multiple building types
UR - http://www.scopus.com/inward/record.url?scp=85112850583&partnerID=8YFLogxK
U2 - 10.1016/j.apenergy.2021.117486
DO - 10.1016/j.apenergy.2021.117486
M3 - Article
AN - SCOPUS:85112850583
SN - 0306-2619
VL - 301
JO - Applied Energy
JF - Applied Energy
M1 - 117486
ER -