Vibrations and Acoustics for Condition Monitoring in Non-stationary Operations

Dear Colleagues,

Condition monitoring (COM) in the context of Industry 4.0 refers to the use of advanced technologies and data analytics to monitor the health and performance of industrial equipment and systems in real-time. It is a key component of the fourth industrial revolution, which emphasizes the integration of digital technologies and automation into industrial processes. CM offers significant economic benefits to industries. By continuously monitoring key parameters and analyzing data, potential faults or abnormalities can be detected early, allowing for proactive maintenance interventions. This can prevent unplanned downtime, minimize repair costs, and extend the lifespan of the machinery. Additionally, condition monitoring enables data-driven decision making, the optimization of maintenance strategies, and resource allocation. Overall, it enhances operational efficiency, improves safety, and ensures the smooth operation of critical systems in industrial settings.

While COM has become an invaluable tool for ensuring the proper functioning and optimal performance of industrial machinery, it faces challenges when dealing with non-stationary operations. In reality, many industrial systems operate under non-stationary conditions due to factors such as changes in the production process, varying workloads, and environmental influences. These non-stationary operations pose a challenge to the development of effective condition monitoring techniques, as traditional stationary statistical methods may not be suitable for such dynamic systems.

To foster knowledge exchange and explore the latest advancements in condition monitoring techniques for non-stationary operations, we are announcing a Special Issue: Vibrations and acoustics for condition monitoring in non-stationary operations. We invite researchers and experts in this field to contribute their insights, ideas, and research findings to enhance our understanding and develop innovative solutions for monitoring non-stationary operations.

Topics

• AI and deep learning-based methods for defect identification;
• The dynamic analysis of complex systems;
• Digital twin technology-assisted condition monitoring;
• Vibration and acoustic emission analysis for non-stationary machinery;
• AI for defect diagnosis under varying speeds and loads.

Prof. Dr. Jiawei Xiang
Guest Editor

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