Journal of Cloud Computing: Advances, Systems and Applications (Jul 2024)

Real-time scheduling of power grid digital twin tasks in cloud via deep reinforcement learning

  • Daokun Qi,
  • Xiaojuan Xi,
  • Yake Tang,
  • Yuesong Zheng,
  • Zhengwei Guo

DOI
https://doi.org/10.1186/s13677-024-00683-z
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 12

Abstract

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Abstract As energy demand continues to grow, it is crucial to integrate advanced technologies into power grids for better reliability and efficiency. Digital Twin (DT) technology plays a key role in this by using data to monitor and predict real-time operations, significantly enhancing system efficiency. However, as the power grid expands and digitization accelerates, the data generated by the grid and the DT system grows exponentially. Effectively handling this massive data is crucial for leveraging DT technology. Traditional local computing faces challenges such as limited hardware resources and slow processing speeds. A viable solution is to offload tasks to the cloud, utilizing its powerful computational capabilities to support the stable operation of the power grid. To address the need, we propose GD-DRL, a task scheduling method based on Deep Reinforcement Learning (DRL). GD-DRL considers the characteristics of computational tasks from the power grid and DT system and uses a DRL agent to schedule tasks in real-time across different computing nodes, optimizing for processing time and cost. We evaluate our method against several established real-time scheduling techniques, including Deep Q-Network (DQN). Our experimental results show that the GD-DRL method outperforms existing strategies by reducing response time, lowering costs, and increasing success rates.

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