Abstract
The imbalance of power supply and demand is an important problem to solve in power industry and Non Intrusive Load Monitoring (NILM) is one of the representative technologies for power demand management. The most critical factor to the NILM is the performance of the classifier among the last steps of the overall NILM operation, and therefore improving the performance of the NILM classifier is an important issue. This paper proposes a new architecture based on the RNN to overcome the limitations of existing classification algorithms and to improve the performance of the NILM classifier. The proposed model, called Multi-Feature Combination Multi-Layer Long Short-Term Memory (MFC-ML-LSTM), adapts various feature extraction techniques that are commonly used for audio signal processing to power signals. It uses Multi-Feature Combination (MFC) for generating the modified input data for improving the classification performance and adopts Multi-Layer LSTM (ML-LSTM) network as the classification model for further improvements. Experimental results show that the proposed method achieves the accuracy and the F1-score for appliance classification with the ranges of 95–100% and 84–100% that are superior to the existing methods based on the Gated Recurrent Unit (GRU) or a single-layer LSTM.
Highlights
Power consumption in homes and buildings has been dramatically increasing because more and more appliances are being used, and the number of them is expected to increase
Long Short-Term Memory (MFC-Multi-Layer LSTM (ML-LSTM)), adapts various feature extraction techniques that are commonly used for audio signal processing to power signals
Experimental results show that the proposed method achieves the accuracy and the F1-score for appliance classification with the ranges of 95–100% and 84–100% that are superior to the existing methods based on the Gated Recurrent Unit (GRU) or a single-layer LSTM
Summary
Power consumption in homes and buildings has been dramatically increasing because more and more appliances are being used, and the number of them is expected to increase. Non-Intrusive Load Monitoring (NILM) [1,2], which is a process that infers the power consumption and monitors the appliances being used from analyzing the aggregated power data without directly measuring through additional hardware, is suitable for this task. In this regard, it has been investigated by many studies [3,4,5]. The physical characteristics of the power signal, such as magnitude, phase and frequency, are fundamental components of the power pattern of an appliance.
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