An extended Kalman filter (EKF) is used to estimate the parameters of a low-order model from aircraft transient response data. The low-order model is a state space model derived from the short-period approximation of the longitudinal aircraft dynamics. The model corresponds to the pitch rate to stick force transfer function currently used in flying qualities analysis. Because of the model chosen, handling qualities information is also obtained. The parameters are estimated from flight data as well as from a six-degree-of-freedom, nonlinear simulation of the aircraft. These two estimates are then compared and the discrepancies noted. The low-order model is able to satisfactorily match both flight data and simulation data from a high-order computer simulation. The parameters obtained from the EKF analysis of flight data are compared to those obtained using frequency response analysis of the flight data. Time delays and damping ratios are compared and are in agreement. This technique demonstrates the potential to determine, in near real time, the extent of differences between computer models and the actual aircraft. Precise knowledge of these differences can help to determine the flying qualities of a test aircraft and lead to more efficient envelope expansion.
Estimating Short-Period Dynamics Using an Extended Kalman Filter
1990
38 pages
Report
No indication
English
Aircraft , Aeronautics , Aircraft performance , Flight characteristics , Flight simulation , Kalman filters , Nonlinear systems , State estimation , Transient response , Parameter identification , Aircraft control , Computerized simulation , Controllability , Degrees of freedom , Estimating , Real time operation , Transfer functions , X-29 aircraft
Estimating Motion Parameters of Head by Using Hybrid Extended Kalman Filter
British Library Conference Proceedings | 2009
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