Time series-based deep learning model for personal thermal comfort prediction
Resource type
Conference Paper
Authors/contributors
- Chennapragada, Aniruddh (Author)
- Periyakoil, Divya (Author)
- Das, Hari Prasanna (Author)
- Spanos, Costas J. (Author)
Title
Time series-based deep learning model for personal thermal comfort prediction
Abstract
Personal thermal comfort models are crucial for the future of human-in-the-loop HVAC control in energy-efficient buildings. Individual comfort models, compared to average population responses, can provide the personalization required for successful control. In this work, we frame the thermal preference prediction task as a multivariate, multi-class classification problem and use deep learning and time-series-based approach for thermal preference prediction. We combine l1 regularization with a Regularized Long Short-Term Memory network (R-LSTM) to leverage the attentional mechanisms of such a model while counteracting overfitting. We run experiments on fourteen different subjects and find promising accuracy, F1 and AUC results, outperforming state-of-the-art machine learning approaches applied for the same task.
Date
2022-06-28
Proceedings Title
Proceedings of the Thirteenth ACM International Conference on Future Energy Systems
Conference Name
e-Energy '22: The Thirteenth ACM International Conference on Future Energy Systems
Place
Virtual Event
Publisher
ACM
Pages
552-555
Series
e-Energy '22
Language
en
ISBN
978-1-4503-9397-3
Accessed
13/02/2024, 19:10
Library Catalogue
DOI.org (Crossref)
Call Number
openalex:W4283264750
Extra
openalex: W4283264750
Citation
Chennapragada, A., Periyakoil, D., Das, H. P., & Spanos, C. J. (2022). Time series-based deep learning model for personal thermal comfort prediction. Proceedings of the Thirteenth ACM International Conference on Future Energy Systems, 552–555. https://doi.org/10.1145/3538637.3539617
Theme
Link to this record