Deep online hierarchical unsupervised learning for pattern mining from utility usage data
Authors: Mohamad, S., Arifoglu, D., Mansouri, C., Bouchachia, A.
Journal: Advances in Intelligent Systems and Computing
Publication Date: 01/01/2019
Volume: 840
Pages: 276-290
ISSN: 2194-5357
DOI: 10.1007/978-3-319-97982-3_23
Abstract:Machine learning approaches for non-intrusive load monitoring (NILM) have focused on supervised algorithms. Unsupervised approaches can be more interesting and of more practical use in real case scenarios. More specifically, they do not require labelled training data to be collected from individual appliances and the algorithm can be deployed to operate on the measured aggregate data directly. In this paper, we propose a fully unsupervised NILM framework based on Deep Belief network (DBN) and online Latent Dirichlet Allocation (LDA). Firstly, the raw signals of the house utilities are fed into DBN to extract low-level generic features in an unsupervised fashion, and then the hierarchical Bayesian model, LDA, learns high-level features that capture the correlations between the low-level ones. Thus, the proposed method (DBN-LDA) harnesses the DBN’s ability of learning distributed hierarchies of features to extract sophisticated appliances-specific features without the need of precise human-crafted input representations. The clustering power of the hierarchical Bayesian models helps further summarise the input data by extracting higher-level information representing the residents’ energy consumption patterns. Using Deep-Hierarchical models reduces the computational complexity since LDA is not directly applied to the raw data. The computational efficiency is crucial as our application involves massive data from different types of utility usages. Moreover, we develop a novel online inference algorithm to cope with this big data. Another novelty of this work is that the data is a combination of different utilities (e.g., electricity, water and gas) and some sensors measurements. Finally, we propose different methods to evaluate the results and preliminary experiments show that the DBN-LDA is promising to extract useful patterns.
https://eprints.bournemouth.ac.uk/30874/
Source: Scopus
Deep Online Hierarchical Unsupervised Learning for Pattern Mining from Utility Usage Data
Authors: Mohamad, S., Arifoglu, D., Mansouri, C., Bouchachia, A.
Journal: ADVANCES IN COMPUTATIONAL INTELLIGENCE SYSTEMS (UKCI)
Publication Date: 2019
Volume: 840
Pages: 276-290
eISSN: 2194-5365
ISBN: 978-3-319-97981-6
ISSN: 2194-5357
DOI: 10.1007/978-3-319-97982-3_23
https://eprints.bournemouth.ac.uk/30874/
Source: Web of Science
Deep Online Hierarchical Unsupervised Learning for Pattern Mining from Utility Usage Data
Authors: Mohamad, S., Arifoglu, D., Mansouri, C., Bouchachia, A.
Conference: 18th Annual UK Workshop on Computational Intelligence
Dates: 05/09/2018
Publication Date: 05/06/2018
https://eprints.bournemouth.ac.uk/30874/
Source: Manual
Preferred by: Hamid Bouchachia
Deep Online Hierarchical Unsupervised Learning for Pattern Mining from Utility Usage Data
Authors: Mohamad, S., Arifoglu, D., Mansouri, C., Bouchachia, A.
Conference: 18th UK Workshop on Computational Intelligence
Dates: 05/09/2018
Journal: Advances in Computational Intelligence Systems
Publication Date: 01/09/2018
Volume: 840
Pages: 276-290
https://eprints.bournemouth.ac.uk/30874/
Source: Manual
Preferred by: Hamid Bouchachia