Low-Complexity Non-Intrusive Load Monitoring Using Unsupervised Learning and Generalized Appliance Models

Liu, Qi; Kamoto, Kondwani Michael; Liu, Xiaodong; Sun, Mingxu; Linge, Nigel

doi:10.1109/tce.2019.2891160

Low-Complexity Non-Intrusive Load Monitoring Using Unsupervised Learning and Generalized Appliance Models

Liu, Qi; Kamoto, Kondwani Michael; Liu, Xiaodong; Sun, Mingxu; Linge, Nigel

Authors

Qi Liu

Kondwani Michael Kamoto

Prof Xiaodong Liu X.Liu@napier.ac.uk
Professor

Mingxu Sun

Nigel Linge

Abstract

Awareness of electric energy usage has both societal and economic benefits, which include reduced energy bills and stress on non-renewable energy sources. In recent years, there has been a surge in interest in the field of load monitoring, also referred to as energy disaggregation, which involves methods and techniques for monitoring electric energy usage and providing appropriate feedback on usage patterns to homeowners. The use of unsupervised learning in Non-Intrusive Load Monitoring (NILM) is a key area of study, with practical solutions having wide implications for energy monitoring. In this paper, a low-complexity unsupervised NILM algorithm is presented, which is designed toward practical implementation. The algorithm is inspired by a fuzzy clustering algorithm called Entropy Index Constraints Competitive Agglomeration (EICCA), but facilitated and improved in a practical load monitoring environment to produce a set of generalized appliance models for the detection of appliance usage within a household. Experimental evaluation conducted using energy data from the Reference Energy Data Disaggregation Dataset (REDD) indicates that the algorithm has out-performance for event detection compared with recent state of the art work for unsupervised NILM when considering common NILM metrics such as Accuracy, Precision, Recall, F-measure, and Total Energy Correctly Assigned (TECA).

Citation

Liu, Q., Kamoto, K. M., Liu, X., Sun, M., & Linge, N. (2019). Low-Complexity Non-Intrusive Load Monitoring Using Unsupervised Learning and Generalized Appliance Models. IEEE Transactions on Consumer Electronics, 65(1), 1-1. https://doi.org/10.1109/tce.2019.2891160

Journal Article Type	Article
Acceptance Date	Jan 2, 2019
Online Publication Date	Jan 7, 2019
Publication Date	2019-02
Deposit Date	Jan 9, 2019
Publicly Available Date	Jan 14, 2019
Journal	IEEE Transactions on Consumer Electronics
Print ISSN	0098-3063
Electronic ISSN	1558-4127
Publisher	Institute of Electrical and Electronics Engineers
Peer Reviewed	Peer Reviewed
Volume	65
Issue	1
Pages	1-1
DOI	https://doi.org/10.1109/tce.2019.2891160
Keywords	Home Energy Management , Non-Intrusive Load Monitoring , Unsupervised Learning , Appliance Modeling,
Public URL	http://researchrepository.napier.ac.uk/Output/1492368
Publisher URL	https://ieeexplore.ieee.org/document/8603750
Contract Date	Jan 9, 2019

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