Litcius/Paper detail

Fault Diagnosis Method Using CNN-Attention-LSTM for AC/DC Microgrid

Qiangsheng Bu, Pengpeng Lyu, Ruihai Sun, Jiangping Jing, Zhenlei Lyu, Shixi Hou

2025Modelling—International Open Access Journal of Modelling in Engineering Science8 citationsDOIOpen Access PDF

Abstract

From the perspectives of theoretical design and practical application, the existing fault diagnosis methods with the complex identification process owing to manual feature extraction and the insufficient feature extraction for time series data and weak fault signal is not suitable for AC/DC microgrids. Thus, this paper proposes a fault diagnosis method that integrates a convolutional neural network (CNN) with a long short-term memory (LSTM) network and attention mechanisms. The method employs a multi-scale convolution-based weight layer (Weight Layer 1) to extract features of faults from different dimensions, performing feature fusion to enrich the fault characteristics of the AC/DC microgrid. Additionally, a hybrid attention block-based weight layer (Weight Layer 2) is designed to enable the model to adaptively focus on the most significant features, thereby improving the extraction and utilization of critical information, which enhances both classification accuracy and model generalization. By cascading LSTM layers, the model effectively captures temporal dependencies within the features, allowing the model to extract critical information from the temporal evolution of electrical signals, thus enhancing both classification accuracy and robustness. Simulation results indicate that the proposed method achieves a classification accuracy of up to 99.5%, with fault identification accuracy for noisy signals under 10 dB noise interference reaching 92.5%, demonstrating strong noise immunity.

Topics & Concepts

Computer scienceFeature extractionFault (geology)Noise (video)Identification (biology)Process (computing)Feature (linguistics)Artificial neural networkPattern recognition (psychology)Artificial intelligenceData miningLayer (electronics)Focus (optics)Convolutional neural networkMicrogridFault detection and isolationInterference (communication)SIGNAL (programming language)Machine learningNoise reductionNoise measurementData modelingFault modelBackground noisePower Systems Fault DetectionPower System Reliability and MaintenanceMachine Fault Diagnosis Techniques