Related papers: Aircraft Fuel Flow Modelling with Ageing Effects: From Parametric Corrections to Neural Networks

Aircraft Fuel Flow Modelling with Ageing Effects: From Parametric Corrections to Neural Networks

URL: http://arxiv.org/abs/2509.15736v1
Date: Fri, 19 Sep 2025 08:06:55 GMT
Title: Aircraft Fuel Flow Modelling with Ageing Effects: From Parametric Corrections to Neural Networks
Authors: Gabriel Jarry, Ramon Dalmau, Philippe Very, Junzi Sun,
Abstract summary: This paper investigates approaches to integrate engine ageing effects into fuel-flow prediction for the Airbus A320-214.<n>We use a comprehensive dataset of approximately nineteen thousand Quick Access Recorder flights from nine distinct airframes with varying years in service.<n>Results demonstrate that while baseline models consistently underestimate fuel consumption for older aircraft, the use of age-dependent correction factors and neural models substantially reduces bias and improves prediction accuracy.
Score: 3.2443798547219096
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Accurate modelling of aircraft fuel-flow is crucial for both operational planning and environmental impact assessment, yet standard parametric models often neglect performance deterioration that occurs as aircraft age. This paper investigates multiple approaches to integrate engine ageing effects into fuel-flow prediction for the Airbus A320-214, using a comprehensive dataset of approximately nineteen thousand Quick Access Recorder flights from nine distinct airframes with varying years in service. We systematically evaluate classical physics-based models, empirical correction coefficients, and data-driven neural network architectures that incorporate age either as an input feature or as an explicit multiplicative bias. Results demonstrate that while baseline models consistently underestimate fuel consumption for older aircraft, the use of age-dependent correction factors and neural models substantially reduces bias and improves prediction accuracy. Nevertheless, limitations arise from the small number of airframes and the lack of detailed maintenance event records, which constrain the representativeness and generalization of age-based corrections. This study emphasizes the importance of accounting for the effects of ageing in parametric and machine learning frameworks to improve the reliability of operational and environmental assessments. The study also highlights the need for more diverse datasets that can capture the complexity of real-world engine deterioration.

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