Dilated causal convolutional neural networks for forecasting zone airflow to estimate short-term energy consumption

Resource type
Journal Article
Authors/contributors
Title
Dilated causal convolutional neural networks for forecasting zone airflow to estimate short-term energy consumption
Abstract
This paper investigates the use of dilated causal convolutional neural networks for fine-grained temporal forecasting of building zone states. Specifically, we build and evaluate models using a small set of exogenous features (e.g., external temperature) to autoregressively predict zone airflow setpoints every minute for a 24-h prediction window. We carefully explore the trade-off between generality and specificity in these models, training and evaluating them based on zone, zone type, month, season, and combinations thereof. When evaluated for a commercial office building in Eastern Washington with 16 zones served by variable air volume air handling units, we find that the highest performance comes from a zone-specific, season-agnostic approach; with it, we obtain an R2 of 0.704 (averaged over zones) and an average normalized root mean square error (nRMSE) of 0.111. In contrast, the most general model (trained across all zones and seasons) yields an R2 of only 0.416 and a nRMSE of 0.168, while a baseline zone-specific reduced order model obtains 0.443 R2 and 0.159 nRMSE. We also report on factors affecting airflow forecasting performance, on the ability of models trained on a specific zone to generalize to other zones, and on the capability of those models trained on a specific month to generalize to other months.
Publication
Energy and Buildings
Volume
286
Pages
112890
Date
2023-05-01
Journal Abbr
Energy and Buildings
ISSN
0378-7788
Accessed
12/02/2024, 21:31
Library Catalogue
ScienceDirect
Call Number
openalex:W4321073092
Extra
openalex: W4321073092
Citation
Tully, J., Haight, R., Hutchinson, B., Huang, S., Lee, J.-Y., & Katipamula, S. (2023). Dilated causal convolutional neural networks for forecasting zone airflow to estimate short-term energy consumption. Energy and Buildings, 286, 112890. https://doi.org/10.1016/j.enbuild.2023.112890