This paper presents a high-fidelity generic twin engine civil aircraft model developed by Airbus for advanced flight control system research. The main features of this benchmark are described to make the reader aware of the model complexity and representativeness. It is a complete representation including the nonlinear rigid-body aircraft model with a full set of control surfaces, actuator models, sensor models, flight control laws (FCL), and pilot inputs. Two applications of this benchmark in the framework of European projects are presented: FCL clearance using optimization and advanced fault detection and diagnosis (FDD)
In this paper we apply model-based synthesis methodologies for the development of robust fault detec...
International audienceFault diagnosis for a closed-loop controlled aeronautical system is considered...
Safety in aircraft systems is a concern of rising importance, especially due to the sophisticated co...
This paper presents a high-fidelity generic twin engine civil aircraft model developed by Airbus for...
International audienceThe paper presents several examples on model and signal based fault ...
A large transport aircraft simulation benchmark (REconfigurable COntrol for Vehicle Emergency Return...
Safety is of paramount importance in all transportation systems, but especially in civil aviation. T...
International audienceThis paper presents a parametric model-based monitoring technique for ...
International audienceA Fault Detection and Isolation (FDI) method for a generic 3D aircraft is pres...
A model-based fault detection and diagnosis (FDD) solution improves the capability in a civil aircra...
This paper addresses the study and the application of a comprehensive set of methodologies for fault...
A large transport aircraft simulation benchmark (REcon¦gurable COn-trol for Vehicle Emergency Return...
Safety in aircraft systems is a concern of rising importance, especially due to the sophisticated co...
International audienceThis paper briefly reviews the state of the art in Fault detection and Isolati...
The implementation of Flight Control Law (FCL) for Aircraft Electronic Flight Control System (EFCS) ...
In this paper we apply model-based synthesis methodologies for the development of robust fault detec...
International audienceFault diagnosis for a closed-loop controlled aeronautical system is considered...
Safety in aircraft systems is a concern of rising importance, especially due to the sophisticated co...
This paper presents a high-fidelity generic twin engine civil aircraft model developed by Airbus for...
International audienceThe paper presents several examples on model and signal based fault ...
A large transport aircraft simulation benchmark (REconfigurable COntrol for Vehicle Emergency Return...
Safety is of paramount importance in all transportation systems, but especially in civil aviation. T...
International audienceThis paper presents a parametric model-based monitoring technique for ...
International audienceA Fault Detection and Isolation (FDI) method for a generic 3D aircraft is pres...
A model-based fault detection and diagnosis (FDD) solution improves the capability in a civil aircra...
This paper addresses the study and the application of a comprehensive set of methodologies for fault...
A large transport aircraft simulation benchmark (REcon¦gurable COn-trol for Vehicle Emergency Return...
Safety in aircraft systems is a concern of rising importance, especially due to the sophisticated co...
International audienceThis paper briefly reviews the state of the art in Fault detection and Isolati...
The implementation of Flight Control Law (FCL) for Aircraft Electronic Flight Control System (EFCS) ...
In this paper we apply model-based synthesis methodologies for the development of robust fault detec...
International audienceFault diagnosis for a closed-loop controlled aeronautical system is considered...
Safety in aircraft systems is a concern of rising importance, especially due to the sophisticated co...