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Integrated-Dispersion Manifold Distance: A New Distribution Discrepancy Metric for Machine Fault Transfer Diagnosis Under Time-Varying Conditions

Quan Qian, Jiusi Zhang, Jun Luo, Yi Qin

2025IEEE Transactions on Cybernetics25 citationsDOI

Abstract

The distribution discrepancy metrics are the core foundation of achieving domain confusion. Therefore, they mainly determine the performance of deep transfer diagnosis models. However, their effectiveness relies on the stability of data local distributions, making them unsuitable for cross-domain machine diagnosis tasks under continuous time-varying conditions. Hence, a new integrated-dispersion manifold distance (IDMD) is proposed to enhance the discrepancy representation capability in dynamic data structures. The maximum entropy-based local distribution (MELD) selection mechanism is designed to represent the global distribution information of time-varying monitoring signals adaptively. Furthermore, the ensemble Grassmann manifold geodesic (EGMG) measurement is constructed to characterize the intrinsic distribution discrepancy information due to complex nonlinear structures of high-dimensional data. The proposed IDMD distribution discrepancy metric is validated against two fault transfer diagnosis experiments under time-varying conditions, including laboratory planetary gearboxes and actual wind turbine bearings. The experimental results demonstrate its effectiveness and advantage over the existing advanced methods.

Topics & Concepts

Manifold (fluid mechanics)Metric (unit)Fault (geology)Stability (learning theory)Distribution (mathematics)AlgorithmGeodesicRepresentation (politics)Domain (mathematical analysis)Computer scienceNonlinear systemMathematicsTurbineManifold alignmentNonlinear dimensionality reductionControl theory (sociology)Artificial intelligenceSelection (genetic algorithm)Mathematical optimizationStatistical manifoldTopology (electrical circuits)Fault detection and isolationPattern recognition (psychology)Core (optical fiber)Transfer (computing)Transfer functionInformation transferDivergence (linguistics)Turbine bladeCondition monitoringWind powerCompensation (psychology)Machine Fault Diagnosis TechniquesFault Detection and Control SystemsStructural Health Monitoring Techniques