Abstract
The recent advances in computing technologies and the increasing availability of large amounts of data in smart grids and smart cities are generating new research opportunities in the application of Machine Learning (ML) for improving the observability and efficiency of modern power grids. However, as the number and diversity of ML techniques increase, questions arise about their performance and applicability, and on the most suitable ML method depending on the specific application. Trying to answer these questions, this manuscript presents a systematic review of the state-of-the-art studies implementing ML techniques in the context of power systems, with a specific focus on the analysis of power flows, power quality, photovoltaic systems, intelligent transportation, and load forecasting. The survey investigates, for each of the selected topics, the most recent and promising ML techniques proposed by the literature, by highlighting their main characteristics and relevant results. The review revealed that, when compared to traditional approaches, ML algorithms can handle massive quantities of data with high dimensionality, by allowing the identification of hidden characteristics of (even) complex systems. In particular, even though very different techniques can be used for each application, hybrid models generally show better performances when compared to single ML-based models.
Highlights
IntroductionThe increasing distribution of Renewable Energy Sources (RESs) with intermittent energy generation and technological novelties in power system management and control demand reliable power predictions and more precise monitoring models [2,3]
This study proposed a novel hybrid model based on variational mode decomposition (VMD), self-recurrent (SR) mechanism, support vector regression (SVR), chaotic mapping mechanism, and cuckoo search (CBCS)
When facing the challenges related to the management of smart power systems, it
Summary
The increasing distribution of Renewable Energy Sources (RESs) with intermittent energy generation and technological novelties in power system management and control demand reliable power predictions and more precise monitoring models [2,3]. Researchers developed advanced solutions based on Machine Learning (ML) algorithms to solve the bottleneck of conventional lumped parameter simulations. Conventional traditional simulation techniques based on deterministic methods are still dominated in power grids. The high performance of machine learning solutions in terms of accuracy computational speed, and scalability brings novelties in power grids management and control. It is expected to boost the adaptation of these techniques for shortto medium-term forecasts of the power grid system operation to meet this gap while getting benefits of advantages of traditional approaches
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