Temporal-Aware Chain-of-Thought Reasoning for Vibration-Based Pump Fault Diagnosis

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Bibliografiske detaljer
Udgivet i:	Processes vol. 13, no. 8 (2025), p. 2624-2647
Hovedforfatter:	Zeng Jinchao
Andre forfattere:	Li, Zicheng, Zheng Zuopeng, Lin Qizhe
Udgivet:	MDPI AG
Fag:	Accuracy Deep learning Wavelet transforms Artificial neural networks Real time Signal processing Computer applications Gear pumps Long short-term memory Vibration analysis Machine learning Fault diagnosis Maintenance costs Fourier transforms Neural networks Process controls Reasoning Support vector machines Network latency Industrial applications Computers Vibration Latency Predictive maintenance Industrial Internet of Things
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Beskrivelse
Resumen:	Industrial pump systems require real-time fault diagnosis for predictive maintenance, but conventional Chain-of-Thought (COT) reasoning faces computational bottlenecks when processing high-frequency vibration data. This paper proposes Vibration-Aware COT (VA-COT), a novel framework that integrates multi-domain feature fusion (time, frequency, time–frequency) with adaptive reasoning depth control. Key innovations involve expert prior-guided dynamic feature selection to optimize edge-device inputs, complexity-aware reasoning chains reducing computational steps by 40–65% through confidence-based early termination, and lightweight deployment on industrial ARM-based single-board computers (SBCs). Evaluated on a 12-class pump fault dataset (5400 samples from centrifugal/gear pumps), VA-COT achieves 93.2% accuracy surpassing standard COT (89.3%) and CNN–LSTM (Convolutional Neural Network-Long Short-Term Memory network) (91.2%), while cutting latency to <1.1 s and memory usage by 65%. Six-month validation at pump manufacturing facilities demonstrated 35% maintenance cost reduction and 98% faster diagnostics versus manual methods, proving its viability for IIoT (Industrial Internet of Things) deployment.
ISSN:	2227-9717
DOI:	10.3390/pr13082624
Fuente:	Materials Science Database