Abstract
Energy management technology of demand-side is a key process of the smart grid that helps achieve a more efficient use of generation assets by reducing the energy demand of users during peak loads. In the context of a smart grid and smart metering, this paper proposes a hybrid model of energy disaggregation through deep feature learning for non-intrusive load monitoring to classify home appliances based on the information of main meters. In addition, a deep neural model of supervised energy disaggregation with a high accuracy for giving awareness to end users and generating detailed feedback from demand-side with no need for expensive smart outlet sensors was introduced. A new functional API model of deep learning (DL) based on energy disaggregation was designed by combining a one-dimensional convolutional neural network and recurrent neural network (1D CNN-RNN). The proposed model was trained on Google Colab’s Tesla graphics processing unit (GPU) using Keras. The residential energy disaggregation dataset was used for real households and was implemented in Tensorflow backend. Three different disaggregation methods were compared, namely the convolutional neural network, 1D CNN-RNN, and long short-term memory. The results showed that energy can be disaggregated from the metrics very accurately using the proposed 1D CNN-RNN model. Finally, as a work in progress, we introduced the DL on the Edge for Fog Computing non-intrusive load monitoring (NILM) on a low-cost embedded board using a state-of-the-art inference library called uTensor that can support any Mbed enabled board with no need for the DL API of web services and internet connectivity.
Highlights
Commercial and residential buildings consume about 60% of electricity in the world
Effective frugal energy use in residential buildings can be accomplished through real time (RT) monitoring of the energy consumption of electrical appliances, providing RT feedbacks to end users to improve their awareness of what electrical appliances should be used at specific times, how much, and the reason for energy consumption by electrical appliances [2]
For a technical background of non-intrusive load monitoring (NILM), a basic framework consists of important important stages: data acquisition (DAQ), of feature extraction, and pattern recognition
Summary
Commercial and residential buildings consume about 60% of electricity in the world. For instance, buildings use 74.9% of the generated electricity in the United States of America, and this figure in Africa is 56%. Processing the training more than once is not necessary, because after the training of deep neural nets, the model is ready to deploy on a server or edge device for real-time NILM and appliance classification. It can be trained on the 12 h free GPUs named Tesla K80 powered by Google Colaboratory. Each network of DNN should extract the energy demand for its target appliance This application would be computationally high-cost in terms of processing for a processor embedded in a smart meter. GPU makes processing faster, it is not required for disaggregation
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