Fault Diagnosis of Airborne Electronic Equipment Based on Dynamic Bayesian Networks

Julan Chen, Wengao Qian

Source Title: International Journal of Intelligent Information Technologies (IJIIT)20(1)

ISSN: 1548-3657|EISSN: 1548-3665|EISBN13: 9798369324660|DOI: 10.4018/IJIIT.335033

MLA

Chen, Julan, and Wengao Qian. "Fault Diagnosis of Airborne Electronic Equipment Based on Dynamic Bayesian Networks." IJIIT vol.20, no.1 2024: pp.1-15. http://doi.org/10.4018/IJIIT.335033

APA

Chen, J. & Qian, W. (2024). Fault Diagnosis of Airborne Electronic Equipment Based on Dynamic Bayesian Networks. International Journal of Intelligent Information Technologies (IJIIT), 20(1), 1-15. http://doi.org/10.4018/IJIIT.335033

Chicago

Chen, Julan, and Wengao Qian. "Fault Diagnosis of Airborne Electronic Equipment Based on Dynamic Bayesian Networks," International Journal of Intelligent Information Technologies (IJIIT) 20, no.1: 1-15. http://doi.org/10.4018/IJIIT.335033

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Abstract

With the rapid development of the aerospace industry, the structure of airborne electronic equipment has become more complex, which to some extent increases the difficulty of fault detection and maintenance of airborne electronic equipment. Traditional manual fault diagnosis methods can no longer fully meet the diagnostic needs of airborne electronic equipment. Therefore, this chapter uses dynamic Bayesian network to diagnose the faults of airborne electronic equipment. The basic idea of using a dynamic Bayesian network-based fault diagnosis method for airborne electronic devices is to mine data based on historical fault data of airborne electronic devices, and obtain fault symptoms and training data of airborne electronic devices. For non-essential fault symptoms, rough set theory was introduced to reduce their attributes and obtain the simplest attribute set, thereby simplifying the network model.