A peak-seeking control algorithm for real-time trim optimization for reduced fuel consumption has been developed by researchers at the National Aeronautics and Space Administration (NASA) Dryden Flight Research Center to address the goals of the NASA Environmentally Responsible Aviation project to reduce fuel burn and emissions. The peak-seeking control algorithm is based on a steepest-descent algorithm using a time-varying Kalman filter to estimate the gradient of a performance function of fuel flow versus control surface positions. In real-time operation, deflections of symmetric ailerons, trailing-edge flaps, and leading-edge flaps of an F/A-18 airplane are used for optimization of fuel flow. Results from six research flights are presented herein. The optimization algorithm found a trim configuration that required approximately 3 percent less fuel flow than the baseline trim at the same flight condition. This presentation also focuses on the design of the flight experiment and the practical challenges of conducting the experiment.
Peak-Seeking Control For Reduced Fuel Consumption: Flight-Test Results For The Full-Scale Advanced Systems Testbed FA-18 Airplane
2013
32 pages
Report
Keine Angabe
Englisch
Aircraft , Aerodynamics , Avionics , Combustion & Ignition , Rocket Propellants , Reciprocation & Rotating Combustion Engines , Fuels , Algorithms , Fuel consumption , Propellant consumption , Combustion efficiency , Propulsion system performance , Wing flaps , Controllers , Fuel flow , Kalman filters , Ailerons , F-18 aircraft