Rising fuel costs combined with other economic pressures have resulted in industry requirements for more efficient air traffic control and airborne operations. NASA has responded with an on-going research program to investigate the requirements and benefits of using new airborne guidance and pilot procedures that are compatible with advanced air traffic control systems and that will result in more fuel efficient flight. The results of flight testing an airborne computer algorithm designed to provide either open-loop or closed-loop guidance for fuel efficient descents while satisfying time constraints imposed by the air traffic control system is summarized. Some of the potential cost and fuel savings that are obtained with sophisticated vert...
A simplified flight-management descent algorithm, programmed on a small programmable calculator, was...
A computer-simulation study was undertaken to investigate a maximum concealment guidance technique (...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
A simplified flight management descent algorithm was developed and programmed on a small programmabl...
A peak-seeking control algorithm for real-time trim optimization for reduced fuel consumption has be...
A simple flight management descent algorithm designed to improve the accuracy of delivering an airpl...
This paper compares fuel consumption of descent trajectories from cruise altitude to meter fix when ...
Computer capability weather input data, performance data, and ATC interface are discussed in terms o...
Concepts to save fuel while preserving airport capacity by combining time based metering with profil...
This study develops a trajectory optimization algorithm for approximately minimizing aircraft travel...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
This study examines the potential fuel burn benefits of altitude and speed optimization in the cruis...
Equipment and operational concepts affecting aircraft in the terminal area are reported. Curved appr...
A peak-seeking control algorithm for real-time trim optimization for reduced fuel consumption has be...
A real time algorithm for computing constant altitude fuel-conservative approach trajectories for ai...
A simplified flight-management descent algorithm, programmed on a small programmable calculator, was...
A computer-simulation study was undertaken to investigate a maximum concealment guidance technique (...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
A simplified flight management descent algorithm was developed and programmed on a small programmabl...
A peak-seeking control algorithm for real-time trim optimization for reduced fuel consumption has be...
A simple flight management descent algorithm designed to improve the accuracy of delivering an airpl...
This paper compares fuel consumption of descent trajectories from cruise altitude to meter fix when ...
Computer capability weather input data, performance data, and ATC interface are discussed in terms o...
Concepts to save fuel while preserving airport capacity by combining time based metering with profil...
This study develops a trajectory optimization algorithm for approximately minimizing aircraft travel...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
This study examines the potential fuel burn benefits of altitude and speed optimization in the cruis...
Equipment and operational concepts affecting aircraft in the terminal area are reported. Curved appr...
A peak-seeking control algorithm for real-time trim optimization for reduced fuel consumption has be...
A real time algorithm for computing constant altitude fuel-conservative approach trajectories for ai...
A simplified flight-management descent algorithm, programmed on a small programmable calculator, was...
A computer-simulation study was undertaken to investigate a maximum concealment guidance technique (...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...