Abstract
The in-situ prognostics and health management of aircraft auxiliary power unit faces difficulty using the sparse on-wing sensing data. As the key technology of prognostics and health management, remaining useful life prediction of in-situ aircraft auxiliary power unit is hard to achieve accurate results. To solve this problem, we propose one kind of quantitative analysis of its on-wing sensing data to implement remaining useful life prediction of auxiliary power unit. Except the most important performance parameter exhaust gas temperature, the other potential parameters are utilized based on mutual information, which can be used as the quantitative metric. In this way, the quantitative threshold of mutual information for enhancing remaining useful life prediction result can be determined. The implemented cross-validation experiments verify the effectiveness of the proposed method. The real on-wing sensing data of auxiliary power unit for experiment are from China Southern Airlines Company Limited Shenyang Maintenance Base, which spends over $6.5 million on auxiliary power unit maintenance and repair each year for the fleet of over 500 aircrafts. Although the relative improvement is not too large, it is helpful to reduce the maintenance and repair cost.
Highlights
Auxiliary power unit (APU) is utilized in many kinds of modern aircrafts
We prove that Gaussian process regression (GPR) and relevance vector machine (RVM) are suitable for implementing the remaining useful life (RUL) prediction of APU, which means that these two methods are suitable for the similar object to APU
When APU is in the on-wing utilization, its condition monitoring data are transmitted to the airline datacenter during each flight task
Summary
Auxiliary power unit (APU) is utilized in many kinds of modern aircrafts. One of the most important functions of APU is to help start the main engines. The necessary supplement for starting the main engines are compressed air and electricity. APU provides fresh air and power into the cabin during the offworking state of the aeroengine. The flight task of the aircraft will be suspended if the on-wing APU is fault or failure. An important function of APU is to provide additional thrust when the aircraft is on the air.1Hence, its on-wing condition is very important for the modern aviation.
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