Graph Attention Networks Unleashed: A Fast and Explainable Vulnerability Assessment Framework for Microgrids

Independent microgrids are crucial for supplying electricity by combining distributed energy resources and loads in scenarios like isolated islands and field combat. Fast and accurate assessments of microgrid vulnerability against intentional attacks or natural disasters are essential for effective risk prevention and design optimization. However, conventional Monte Carlo simulation (MCS) methods are computationally expensive and time-consuming, while existing machine learning-based approaches often lack accuracy and explainability. To address these challenges, this study proposes a fast and explainable vulnerability assessment framework that integrates MCS with a graph attention network enhanced by self-attention pooling (GAT-S). MCS generates training data, while the GAT-S model learns the structural and electrical characteristics of the microgrid and further assesses its vulnerability intelligently. The GAT-S improves explainability and computational efficiency by dynamically assigning attention weights to critical nodes. Comprehensive experimental evaluations across various microgrid configurations demonstrate that the proposed framework provides accurate vulnerability assessments, achieving a mean squared error as low as 0.001, real-time responsiveness within 1 second, and delivering explainable results.

@article{liu2025_2503.00786,
  title={ Graph Attention Networks Unleashed: A Fast and Explainable Vulnerability Assessment Framework for Microgrids },
  author={ Wei Liu and Tao Zhang and Chenhui Lin and Kaiwen Li and Rui Wang },
  journal={arXiv preprint arXiv:2503.00786},
  year={ 2025 }
}