Recent extensions to optimal control theory applied to meaningful linear models with sufficiently flexible software tools provide powerful techniques for designing flight test trajectory controllers (FTTCs). This report describes the principal steps for systematic development of flight trajectory controllers, which can be summarized as planning, modeling, designing, and validating a trajectory controller. The techniques have been kept as general as possible and should apply to a wide range of problems where quantities must be computed and displayed to a pilot to improve pilot effectiveness and to reduce workload and fatigue. To illustrate the approach, a detailed trajectory guidance law is developed and demonstrated for the F-15 aircraft flying the zoom-and-pushover maneuver.
Flight test trajectory control analysis
1983-02-01
Report
Keine Angabe
Englisch
Flight Test Trajectory Control Analysis
NTIS | 1983
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|Aircraft Flight Test Trajectory Control
NTIS | 1988
|Aircraft flight test trajectory control
NTRS | 1988
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NTIS | 1988
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