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Parameter identification and modeling of longitudinal aerodynamics (1995)

Bach, R. E., Jr. ; Aksteter, J. W. ; Parks, E. K.

In: CASI

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Publication Date: 2019-06-28

Description: Using a comprehensive flight test database and a parameter identification software program produced at NASA Ames Research Center, a math model of the longitudinal aerodynamics of the Harrier aircraft was formulated. The identification program employed the equation error method using multiple linear regression to estimate the nonlinear parameters. The formulated math model structure adhered closely to aerodynamic and stability/control theory, particularly with regard to compressibility and dynamic manoeuvring. Validation was accomplished by using a three degree-of-freedom nonlinear flight simulator with pilot inputs from flight test data. The simulation models agreed quite well with the measured states. It is important to note that the flight test data used for the validation of the model was not used in the model identification.

Keywords: Aerodynamics

Type: NASA-TM-111272 , NAS 1.15:111272

Format: application/pdf

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Severe Turbulence and Maneuvering from Airline Flight Records (1994)

Wingrove, Rodney C. ; Bach, R. E., Jr.

In: CASI

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Publication Date: 2019-07-13

Description: Digital flight records from reported clear-air turbulence incidents are used to determine winds and turbulence, to determine maneuver g loads, and to analyze control problems. Many cases of severe turbulence are found downwind of mountains and thunderstorms where sharp, sudden jolts are associated with vortices in atmospheric waves. Other cases of severe turbulence are round in strong updrafts above thunderstorm buildups that may be undetected by onboard weather radar. An important finding is that there are large maneuvering loads in over half of the reported clear-air turbulence incidents. Maneuvering loads are determined through an analysis of the short-term variations in elevator deflection and aircraft pitch angle. For altitude control in mountain waves the results indicate that small pitch angle changes with proper timing are sufficient to counter variations in vertical wind. For airspeed control in strong mountain waves, however, there is neither the available thrust nor the quickness in engine response necessary to counter the large variations in winds.

Keywords: Aerodynamics

Type: NASA-TM-111780 , NAS 1.15:111780 , AIAA Paper 92-4341 , Journal of Aircraft; 31; 4; 753-760|Atmospheric Flight Mechanics; Aug 10, 1992 - Aug 12, 1992; Hilton Head, SC; United States

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