Non-technical Losses in Brazil: Overview, Challenges, and Directions for Identification and Mitigation

Savian, Fernando de Souza; Siluk, Julio Cezar Mairesse; Garlet, Taís Bisognin; Nascimento, Felipe Moraes do; Pinheiro, J.R.; Vale, Zita

doi:10.32479/ijeep.12614

Cited by 7 publications

(1 citation statement)

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“…Despite regulatory advancements in Brazil, the high levels of unbilled electricity consumption persist, affecting tariffs, investment capacity, and public policy development. This research paper [39] emphasizes the need for coordinated strategic actions, including a cultural shift in attitudes towards electricity theft, and aims to provide valuable insights to regulatory authorities, government, concessionaires, and researchers to develop practical solutions for mitigating NTLs in Brazil.…”

Section: Literature Reviewmentioning

confidence: 99%

A novel deep learning technique to detect electricity theft in smart grids using AlexNet

Khan,

Shahid,

Alam

et al. 2024

IET Renewable Power Gen

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Electricity theft (ET), which endangers public safety, interferes with the regular operation of grid infrastructure, and increases revenue losses, is a significant issue for power companies. To find ET, numerous machine learning, deep learning, and mathematically based algorithms have been published in the literature. However, these models do not yield the greatest results due to issues like the dimensionality curse, class imbalance, inappropriate hyper‐parameter tuning of machine learning, deep learning models etc. A hybrid DL model is presented for effectively detecting electricity thieves in smart grids while considering the abovementioned concerns. Pre‐processing techniques are first employed to clean up the data from the smart meters, and then the feature extraction technique, AlexNet is used to address the curse of dimensionality. An actual dataset of Chinese smart meters is used in simulations to assess the efficacy of the suggested approach. To conduct a comparative analysis, various benchmark models are implemented as well. This proposed model achieves accuracy, precision, recall, and F1‐score, up to 86%, 89%, 86%, and 84%, respectively.

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Section: Literature Reviewmentioning

confidence: 99%