A linearized model for rotorcraft dynamics has been developed through the use of symbolic automatic equation generation techniques. The dynamic model has been formulated in a unique way such that it can be used to analyze a variety of rotor/body coupling problems including a rotor mounted on a flexible shaft with a number of modes as well as free flight stability and control characteristics. Direct comparison of the time response to longitudinaol, lateral and directional control inputs at various trim conditions shows that the linear model yields good to very good correlation with flight test. In particular it is also shown that a dynamic inflow model is essential to obtain good time response correlation especially for the hover trim condition and also that at translational flight trim conditions the main rotor wake interaction with the tail rotor and fixed tail surfaces is a significant contributor to the response. A relatively simple model for the downwash and sidewash at tail surfaces based on flat vortex wake theory is shown to produce good agreement. Finaly, the influence of rotor flap and lag dynamics on automatic control systems feedback gain limitations is investigated with the model.
A linearized model of helicopter dynamics including correlation with flight test
International Conference on Rotorcraft Basic Research ; 1988 ; College Park, MD, United States
1988-01-01
Conference paper
No indication
English
Flight dynamics helicopter model validation based on flight test data
SAGE Publications | 2007
|Flight dynamics helicopter model validation based on flight test data
Tema Archive | 2007
|Flight dynamics helicopter model validation based on flight test data
Online Contents | 2007
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