Challenges in Predicting Smart Grid Stability Linked with Renewable Energy Resources through Spark MLlib Learning
DOI:
https://doi.org/10.14313/jamris-2025-036Keywords:
Smart grids, stability, machine learning, predictive modeling, PySparkAbstract
This article conducts a numerical analysis focused on the predictive stability of smart grids, particularly in connection with renewable energy resources. The study leverages SparkMLlib machine learning tools to develop a predictive model. The aim is to enhance the under‐ standing and forecasting of smart grid stability, with a specific emphasis on the integration of renewable energy sources. The numerical analysis involves the uti‐ lization of advanced algorithms and techniques provided by SparkMLlib to assess the intricate relationships among various factors impacting smart grid stability. The find‐ ings of this study contribute to the ongoing efforts to optimize the reliability and efficiency of smart grids in the context of increasing reliance on renewable energy resources.
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Copyright (c) 2025 Journal of Automation, Mobile Robotics and Intelligent Systems
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