To optimize the reliability of solid oxide fuel cells (SOFCs), an analysis method based on automatic spectral clustering and neighborhood rough sets is proposed in this article. This is the first application of multistate reliability theory to SOFC systems. First, a state partitioning method based on automatic spectral clustering is proposed to partition the operational data into different classes. Then, the feature extraction method based on the neighborhood rough set is used to find the most sensitive variables to system state changes. Finally, the accuracy of state segmentation and feature extraction is verified by training state classifiers. In addition, the generality of the method is verified by migrating it to another pure hydrogen-fueled SOFC system. The results show that the state segmentation method successfully partitions the electrical characteristics into ten states. Even the data in the early stage of failure can be well segmented. Moreover, the feature extraction method extracts six variables that are most sensitive to state changes, which reduces the number of variables by 85.7%. The state classifier can achieve over 94% correct state recognition rate within 30 s. Meanwhile, the method has good generality and transferability.
Multistate Reliability Analysis of Solid Oxide Fuel Cells Using Automatic Spectral Clustering and Neighborhood Rough Sets
IEEE Transactions on Transportation Electrification ; 10 , 1 ; 95-109
2024-03-01
5373282 byte
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Multistate Model for Travel Time Reliability
Online Contents | 2010
|Multistate Model for Travel Time Reliability
Transportation Research Record | 2010
|Calibration Issues for Multistate Model of Travel Time Reliability
Online Contents | 2010
|Multistate Travel Time Reliability Models with Skewed Component Distributions
Online Contents | 2012
|