Fault Diagnosis & Sensors
Section Information
The "Fault Diagnosis & Sensors" Section seeks original research that is related to advanced methods, technologies, and systems for fault diagnosis, failure prognosis, and non-destructive testing, using various sensor types for multiple industrial applications, i.e., aerospace, power generation, oil and gas, construction, transport, manufacturing, and many others. This Section provides a platform for the publication of original scientific research that is likely to have a broad impact and intends to explore feature topics through the establishment of Special Issues.
Keywords:
- fault detection and diagnosis
- fault/failure prognosis
- root cause analysis and troubleshooting in the case of faults/failures
- condition monitoring methods, technologies, and systems
- non-destructive testing (NDT) methods, technologies, and systems
- structural health monitoring methods, technologies, and systems
- advanced and novel sensors based on force, heat, sound, electricity, magnetism, etc., for fault diagnosis, failure prognosis, and NDT
- sensor data fusion for fault diagnosis, failure prognosis, and NDT
- intelligent sensors and sensor networks for fault diagnosis, failure prognosis, and NDT
- signal and image processing for fault diagnosis, failure prognosis, and NDT
- certification for fault diagnosis, failure prognosis, and NDT
- pattern recognition, machine learning, artificial intelligence, and data analytics for fault diagnosis, failure prognosis, and NDT
- nonlinear methods, technologies, and systems for fault diagnosis, failure prognosis, and NDT
- big data for fault diagnosis, failure prognosis, and NDT
- modal analysis, finite element analysis, and computational fluid dynamics for fault diagnosis, failure prognosis, and NDT
- modelling for fault diagnosis, failure prognosis, and NDT
- lubrication and tribology for fault diagnosis, failure prognosis, and NDT
- nano technologies for fault diagnosis, failure prognosis, and NDT
- design, architecture, and information technology for fault diagnosis, failure prognosis, and NDT
- adaptation and automation for fault diagnosis, failure prognosis, and NDT
- fault-tolerant control
- physics and analysis of faults/failures/failure modes
- reliability assessment and quality control
- digital twins for fault diagnosis, failure prognosis, and NDT
- high-performance computing and edge computing for fault diagnosis, failure prognosis, and NDT
- industry 4.0 for fault diagnosis, failure prognosis, and NDT
- measurement methods, technologies, and systems for fault diagnosis, failure prognosis, and NDT

