Litcius/Paper detail

From Forecasting to Foresight: Building an Autonomous O&M Brain for the New Power System Based on a Cognitive Digital Twin

Xufeng Wu, Zuowei Chen, Hefang Jiang, Shoukang Luo, Yi Zhao, Dongwei Zhao, Peiyao Dang, Jiajun Gao, Lin Lin, Hao Wang

2025Electronics7 citationsDOIOpen Access PDF

Abstract

Despite notable advances in load forecasting and fault detection, current power system operation and maintenance (O&M) technologies remain fragmented into independent and primarily reactive modules. Load forecasting estimates future demand, whereas fault detection identifies whether abnormal conditions exist in the present state. This paper proposes a unified and proactive Cognitive Digital Twin (CDT) system. Unlike traditional data-driven approaches, the CDT integrates Large Language Models (LLMs) and Knowledge Graphs (KGs) as cognitive cores to enable deeper reasoning and context-aware decision-making. The CDT system not only mirrors the physical grid but also acts as an intelligent O&M engine capable of understanding, reasoning, predicting, and self-diagnosing. The core innovation lies in prediction-based anomaly detection. The system first estimates the expected healthy state of the grid at future time steps and then compares real-time monitoring data against these predictions to identify incipient anomalies. This enables genuine foresight rather than simple reactive detection. By orchestrating advanced analytical modules, including CNN–LSTM hybrid models and optimization algorithms, the CDT supports autonomous O&M operations with transparent and explainable decision-making. These capabilities enhance grid resilience and improve the system’s capacity for self-healing.

Topics & Concepts

Electric power systemComputer scienceGridFault (geology)Cognitive loadAnomaly detectionResilience (materials science)Futures studiesArtificial intelligenceDistributed computingEngineeringCyber-physical systemCognitionDependabilityReal-time computingPower gridVisualizationSystems engineeringReliability engineeringState (computer science)Power (physics)Machine learningCognitive modelFault detection and isolationControl engineeringMachine Fault Diagnosis TechniquesEnergy Load and Power ForecastingAdvanced Graph Neural Networks
From Forecasting to Foresight: Building an Autonomous O&M Brain for the New Power System Based on a Cognitive Digital Twin | Litcius