Abstract
Using a single-point sensor, non-intrusive load monitoring (NILM) discerns the individual electrical appliances of a residential or commercial building by disaggregating the accumulated energy consumption data without accessing to the individual components. To classify devices, potential features need to be extracted from the electrical signatures. In this article, a novel features extraction method based on current shapelets is proposed. Time-series current shapelets are determined from the normalized current data recorded from different devices. In general, shapelets can be defined as the subsequences constituting the most distinguished shapes of a time-series sequence from a particular class and can be used to discern the class among many subsequences from different classes. In this work, current envelopes are determined from the original current data by locating and connecting the peak points for each sample. Then, a unique approach is proposed to extract shapelets from the starting phase (device is turned on) of the time-series current envelopes. Subsequences windowed from the starting moment to a few seconds of stable device operation are taken into account. Based on these shapelets, a multi-class classification model consisting of five different supervised algorithms is developed. The performance evaluations corroborate the efficacy of the proposed framework.
Highlights
The rapid growth of economic development has drastically increased electricity energy demands over the last few years
appliance load monitoring (ALM) can be executed by intrusive load monitoring (ILM) techniques that are relatively more accurate but require more sensing and measuring equipments and resources [1]
Time-series shapelets are defined as subsequences or snippets in a time-series dataset, which are directly interpretable and can be represented as class members in a classification problem domain [33,34,35]
Summary
The rapid growth of economic development has drastically increased electricity energy demands over the last few years. It is possible to monitor, manage and control the electricity energy demands on real time usage basis to enhance the efficiency of a power system network. For a substantial smart energy management framework, a reliable appliance load monitoring (ALM) system is important, which can ensure most risk-free and cost-effective energy consumption for the users. ALM can be executed by intrusive load monitoring (ILM) techniques that are relatively more accurate but require more sensing and measuring equipments and resources [1]. Another more immaculate way to execute ALM with less
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
