A Machine Learning Based Methodology for Load Profiles Clustering and Non-Residential Buildings Benchmarking

Buildings benchmarking based on their electric profiles is a fundamental step to identify, evaluate and then possibly implement energy efficiency oriented actions. Indeed, benchmarking enables comparison among peer buildings or industrial sites and the identification of reference cases, either effic...

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Bibliographic Details
Published in:IEEE transactions on industry applications 2023-05, Vol.59 (3), p.2963-2973
Main Authors: Eiraudo, Simone, Barbierato, Luca, Giannantonio, Roberta, Porta, Alessandro, Lanzini, Andrea, Borchiellini, Romano, Macii, Enrico, Patti, Edoardo, Bottaccioli, Lorenzo
Format: Article
Language:English
Subjects:
Algorithms
Benchmark testing
benchmarking
Benchmarks
Buildings
Business metrics
Clustering
Clustering algorithms
Energy efficiency
Energy measurement
Key performance indicator
Machine learning
Methodology
non-residential buildings
Nonresidential buildings
Task analysis
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Summary:Buildings benchmarking based on their electric profiles is a fundamental step to identify, evaluate and then possibly implement energy efficiency oriented actions. Indeed, benchmarking enables comparison among peer buildings or industrial sites and the identification of reference cases, either efficient and inefficient ones. In this regard, temporal data clustering is an effective and widely applicable benchmarking tool. In this work, we propose a novel Machine Learning based methodology, taking advantage of two fundamental tools, namely a decomposition algorithm and a clustering one. Several clustering algorithms have been tested to identify k-Means as the most suitable one. The proposed methodology includes the evaluation of energy Key Performance Indicators for effective analysis and comparison of buildings. The proposed framework has been tested on a real-world case study including around 2000 non-residential buildings. The classification of buildings based on K-Means achieved an accuracy of 99.7% with respect to their usage category. Furthermore, reference Key Performance Indicator values for each cluster are obtained and discussed to understand buildings' energy behaviour and possible reasons for inefficiencies.
ISSN:0093-9994
1939-9367
DOI:10.1109/TIA.2023.3240669