Flight Test Techniques for Quantifying Pitch Rate and Angle of Attack Rate Dependencies

Jared A Grauer; Eugene A Morelli; Daniel G Murri

doi:10.2514/1.C034407

Flight Test Techniques for Quantifying Pitch Rate and Angle of Attack Rate Dependencies

J Aircr. 2017 Nov;54(6):2367-2377. doi: 10.2514/1.C034407. Epub 2017 Jun 2.

Authors

Jared A Grauer¹, Eugene A Morelli², Daniel G Murri³

Affiliations

¹ Research Engineer, Dynamic Systems and Control Branch, MS 308. Senior Member AIAA, NASA Langley Research Center, Hampton, Virginia 23681.
² Research Engineer, Dynamic Systems and Control Branch, MS 308. Associate Fellow AIAA, NASA Langley Research Center, Hampton, Virginia 23681.
³ NASA Technical Fellow for Flight Mechanics, NASA Engineering and Safety Center, MS 308, Associate Fellow AIAA, NASA Langley Research Center, Hampton, Virginia 23681.

Abstract

Three different types of maneuvers were designed to separately quantify pitch rate and angle of attack rate contributions to the nondimensional aerodynamic pitching moment coefficient. These maneuvers combined pilot inputs and automatic multisine excitations, and were demonstrated with the subscale T-2 and Bat-4 airplanes using the NASA AirSTAR flight test facility. Stability and control derivatives, in particular $C_{m_{q}} and C_{m_{\dot{α}}},$ were accurately estimated from the flight test data. These maneuvers can be performed with many types of aircraft, and the results can be used to improve physical insight into the flight dynamics, facilitate more accurate comparisons with wind tunnel experiments or numerical investigations, and increase simulation prediction fidelity.

Grants and funding

ARMD/Aeronautics NASA/United States