Automated Non-Intrusive Load Monitoring System Using Stacked Neural Networks and Numerical Integration

Carmo, Suelene de Jesus do; Castro, Adriana

doi:10.1109/access.2020.3039639

Cited by 5 publications

(2 citation statements)

References 49 publications

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“…If a faster communication speed is required, the 4G/3G (such as SIM7600CE shield for Arduino, which supports 4G, 3G, and GPRS data transmission) module can be employed. [13]. They employed REDD and UK-DALE datasets and achieved F1-scores of 0.879 and 0.858, respectively, for the datasets.…”

Section: B Implementation Cost and Execution Timementioning

confidence: 99%

“…However, the increasing computational complexity associated with the growing number of appliances makes the methods difficult to implement for real-time applications. Individual appliance identification using features of the low-frequency power-series signal was demonstrated by Corrêa et al [13] and Zhang et al [14]. Rafiq et al also identified a single appliance using low-frequency active power (P), apparent power (S), reactive power (Q), rms voltage (V), rms current (I), and power factor (PF) data [15].…”

Section: Introductionmentioning

confidence: 99%

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Real-Time Non-Intrusive Electrical Load Classification Over IoT Using Machine Learning

Ahammed¹,

Hasan²,

Rahman

et al. 2021

IEEE Access

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In this era of technological advancement, the flow of an enormous amount of information has become such an inevitable phenomenon that makes a path for the takeover of the internet of things (IoT) based smart grid from the currently available grid system. In a smart grid, demand-side management plays a crucial role in reducing the generation capacity by shifting the user energy consumption from peak period to off-peak period, which requires detailed knowledge of the user consumption at the individual appliance level. Non-intrusive load monitoring (NILM) provides an exceptionally low-cost solution for determining individual appliance levels using a single-point measurement. This paper proposed an IoT-based real-time non-intrusive load classification (RT-NILC) system considering the variability of supply voltage using lowfrequency data. Due to the unavailability of smart meters at the household level in Bangladesh, a dataacquisition system (DAS) is developed. The DAS is capable of measuring and storing rms voltage, rms current, active power, and power factor data at a sampling rate of 1 Hz. These data are processed to train different multilabel classification models. The best-performed classification model has been selected and utilized for the implementation of RT-NILC over IoT. The Firebase real-time online database is considered for data storage to flow the data in two-way between end-user and service provider (energy distributor). The GPRS module is used for wireless data transmission as a Wi-Fi network may not be available everywhere. Windows and web application are developed for data visualization. The proposed system has been validated in real-time, using rms voltage, rms current, and active power measurements at a real house. Even under supply voltage variability, the performance evaluation of the RT-NILC system has shown an average classification accuracy of more than 94%. Good classification accuracy and the overall operation of the IoTbased information exchange systems ensure the proposed system's applicability for efficient energy management.INDEX TERMS Non-intrusive load monitoring, Real-time load classification, IoT framework, Machine learning, Variation of supply voltage.

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Section: B Implementation Cost and Execution Timementioning

confidence: 99%