Data-Driven Online Health Assessment for Electronic Systems: A Portable Solution Exploiting Real-World Field Data
Anahtar Kelimeler:
Prognostics and Health Monitoring, Internet-of-Things, Maintenance planning, Electrical component reliabilityÖzet
The field of Prognostics and Health Monitoring (PHM) for electronic systems is continually evolving to meet the growing demand for reliable and intelligent electronics, particularly in the context of the Internet-of-Things (IoT) and autonomous vehicles. This paper proposes a cost-effective and time-efficient approach to maintenance planning and monitoring of electronic systems through continuous real-time data analysis. By leveraging machine learning algorithms, the aim is to ensure the safety and reliability of electrical components without the need for permanent data storage. The degradation of solder contacts, caused by cyclic temperature loads, is identified as a primary cause of electronic failures. Finite Element Analysis (FEA) is commonly used for evaluating solder joint reliability but is not suitable for real-time monitoring due to computational resource requirements. Instead, FEA is employed to generate artificial data for training machine learning models. The paper presents a portable solution for online health assessment using a combination of real-world field data from an electric bike's power module and a synthetic database. The focus is on evaluating the Remaining Useful Lifetime (RUL) of solder joints without the need for a large temperature database. The methodology, including field data acquisition and machine learning model training, is described in detail. The results obtained demonstrate the potential of the proposed approach for practical implementation in electronic systems.
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