Sensor Applications in Fault Diagnosis and Monitoring of Electrical Machines II
A special issue of Sensors (ISSN 1424-8220). This special issue belongs to the section "Fault Diagnosis & Sensors".
Deadline for manuscript submissions: closed (10 January 2023) | Viewed by 9837
Special Issue Editor
Interests: condition monitoring of electrical machines; applications of signal analysis techniques to electrical engineering and efficiency in electric power applications
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Electrical machines are the key components of many industrial processes, as well as in everyday life. They may provide mechanical power (e.g., induction motors, permanent magnet motors) or electrical power (e.g., synchronous generators, wind turbines), and their vital role has increased along with the growing widespread use of electrical vehicles, renewable energies, robots, drones, etc. A growing trend is the integration of electrical machines in information systems aimed at tracking production data, optimizing their functional setup, or assessing the condition of the machine in order to prevent or minimize the impact of sudden failures. For this integration to succeed, it is necessary to analyze diverse sensor parameters (currents, vibrations, axial fluxes, speed, etc.) using signal processing techniques, and to present this information to the end user while taking into account the different information channels available in modern communication systems (specialized SCADA systems, web pages, mobile apps, cloud repositories, etc.). Therefore, in recent years, the fault diagnosis and monitoring technologies of electrical machines have attracted increasing attention from both academia and industry. Both high volumes and high quality of information are being demand from multiple types of sensor data, but sensors are also subject to failure, which must be accounted for in the diagnostic systems. The integration of distributed sensor networks in model-based, signal-based, knowledge-based, and hybrid/active diagnostic systems is a challenging issue which requires expertise from a broad set of disciplines, such as artificial intelligence, adaptive observer design, statistical estimation, data dimension reduction techniques, etc. On the other side, the acquired information can be stored, processed, and delivered using modern cloud-based software services and big-data technologies. We invite researchers from both academia and industry to submit original and unpublished manuscripts to this Special Issue to showcase some of the recent developments within these topics. The goal of the Special Issue is to publish the most recent research results and industrial applications of sensors in fault diagnosis and monitoring of electrical machines. Topics that are suitable for this Special Issue include, but are not limited to: Data-driven and model-based sensor fault diagnosis;Integration of high-volume sensor data in the design of applications for fault diagnosis of electrical machines and drives;Sensors in advanced electrical machines—fault diagnosis and monitoring applications in different industrial sectors;Methods, concepts, and performance assessment for improving the fault diagnosis of existing techniques in the field of electrical machines;Electrical drives as sensors in industrial processes;Cloud-based software services for fault diagnosis and monitoring of electrical machines.
Prof. Dr. Martin Riera-Guasp
Guest Editor
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Keywords
- distributed sensor networks
- data-driven fault diagnosis systems for electrical machines and drives
- knowledge-based fault diagnosis control systems
- electrical machines and drives as sensors for fault diagnosis
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