rotor control
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2020 ◽  
Vol 1618 ◽  
pp. 052050
Author(s):  
Christian Bak ◽  
Alexander M. Forsting ◽  
Niels N. Sorensen

Author(s):  
Xufei Yan ◽  
Renliang Chen ◽  
Ji Xin

This paper studies helicopter optimal landing and control procedure after tail rotor control failure (TRCF) in different collective pitch. The optimal control problem of landing after tail rotor control failure was solved numerically by direct multiple shooting method and sequential quadratic programming. A sample helicopter optimal landing procedures after tail rotor control failure in large collective pitch and small collective pitch were investigated respectively. As can be seen from the results, when the tail rotor is stuck at large collective pitch, the tail rotor provides a large lateral force, which facilitates landing with small forward speed and descent rate in a large power state. The pilot can maintain stability of heading by side slipping. When the tail rotor is stuck at small collective pitch, the tail rotor provides a small lateral force, which is favorable for flying near economic speed, but difficult for a safe landing. A normal landing maneuver will cause a high yaw rate at touchdown, which is dangerous. Therefore, autorotation is preferred during touchdown because the landing is more secure with small yaw rate. The trajectory optimization method of helicopter safe landing after tail rotor control failure can provide a reference for flight test.


Author(s):  
Robert Unguran ◽  
Vlaho Petrovic ◽  
Lucy Y. Pao ◽  
Martin Kuhn
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2019 ◽  
Vol 56 (1) ◽  
pp. 179-190 ◽  
Author(s):  
Tianxiao Yang ◽  
Kenneth S. Brentner ◽  
Ethan Corle ◽  
Sven Schmitz

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