https://ojs.acad-pub.com/index.php/ICSE/issue/feed 2024-02-28T07:14:07+00:00 Managing Editor editorial-icse@acad-pub.com Open Journal Systems <table> <tbody> <tr style="vertical-align: top;"> <td style="text-align: justify;"> <p><strong><em><span style="vertical-align: inherit;">&nbsp;&nbsp;&nbsp;&nbsp;Intelligent Control and System Engineering&nbsp;</span></em></strong>(ICSE) is an open-access peer-reviewed journal, which focuses on related topics on intelligent control and system engineering. The journal welcomes all relevant submissions of research articles, case studies, reviews and etc.</p> </td> </tr> </tbody> </table> https://ojs.acad-pub.com/index.php/ICSE/article/view/427 2024-02-28T07:14:07+00:00 Ce Li yyyyinny99@gmail.com Fanglin Guo yyyyinny99@gmail.com Rong Yang yyyyinny99@gmail.com Hua Wang yyyyinny99@gmail.com Bo Yao yyyyinny99@gmail.com

<p>Energy detection is an important part of intelligent power consumption, and its key technology is non-intrusive load monitoring (NILM). In this study, an end-to-end model is proposed to realize the NILM of commercial power data using the autoencoder-based transformer method. Firstly, we measured the operating power of different electrical appliances across different modes and combined the operating modes of electrical appliances. Considering the relatively large number of industrial electrical appliances, to ensure accuracy, we used Autoencoder to recode and reduce the dimension of the combined coding. Secondly, the transformer model was used to train the translation of the total power consumption information sequence and the state sequence of electrical appliances. Through our model, the electrical signals to be decomposed can be translated into different electrical state codes so as to realize load energy decomposition. Finally, when our model was applied to the gas station field data, the accuracy was as high as 90.17%.</p>

2024-02-28T00:00:00+00:00 Copyright (c) 2024 Ce Li, Fanglin Guo, Rong Yang, Hua Wang, Bo Yang