Despite the onset of new subsystem design philosophies, such as the More Electric Aircraft (MEA) one, which propose a shift towards aircraft electrification, hydraulically powered actuators still make up the backbone of flight control actuators in modern days airliners. Electro-Hydraulic Actuators (EHA), even though heavier and less flexible than more advanced actuators, represent a time-tested, reliable and mature technology. This paper proposes three methodologies to model an Electro-Hydraulic Actuator flapper-nozzle servo valve. While taking a computationally intensive physical-based model for reference, the authors developed three independent simpler models leveraging a look-up table, a genetic algorithm-based approach and an artificial neural network concept. The models take as input the same four main servo valve parameters: spool position, flow rate, covering and radial clearance. The neural network based model has been used for diagnostic purposes too, representing a first step towards the future development of more integrated prognostic frameworks, enhancing the component safety and reliability. The final outcomes show general positive results with errors of 5-10, 10-15 and 1-5 percent for the look-up table, genetic algorithm and neural network methods respectively.
Simplified Modeling of a Flapper-Nozzle Servo Valve for Electro-Hydraulic Actuators: Genetic Algorithms and Neural Networks / Baldo, L.; Caredda, E.; Quattrocchi, G.; Dalla Vedova, M. D. L.; Maggiore, P.. - ELETTRONICO. - (2023), pp. 207-212. (Intervento presentato al convegno 2023 Prognostics and Health Management Conference - Paris, PHM-Paris 2023 tenutosi a Paris, France nel 2023) [10.1109/PHM58589.2023.00047].
Simplified Modeling of a Flapper-Nozzle Servo Valve for Electro-Hydraulic Actuators: Genetic Algorithms and Neural Networks
Baldo L.;Quattrocchi G.;Dalla Vedova M. D. L.;Maggiore P.
2023
Abstract
Despite the onset of new subsystem design philosophies, such as the More Electric Aircraft (MEA) one, which propose a shift towards aircraft electrification, hydraulically powered actuators still make up the backbone of flight control actuators in modern days airliners. Electro-Hydraulic Actuators (EHA), even though heavier and less flexible than more advanced actuators, represent a time-tested, reliable and mature technology. This paper proposes three methodologies to model an Electro-Hydraulic Actuator flapper-nozzle servo valve. While taking a computationally intensive physical-based model for reference, the authors developed three independent simpler models leveraging a look-up table, a genetic algorithm-based approach and an artificial neural network concept. The models take as input the same four main servo valve parameters: spool position, flow rate, covering and radial clearance. The neural network based model has been used for diagnostic purposes too, representing a first step towards the future development of more integrated prognostic frameworks, enhancing the component safety and reliability. The final outcomes show general positive results with errors of 5-10, 10-15 and 1-5 percent for the look-up table, genetic algorithm and neural network methods respectively.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2991508