Previous investigations into formation flight have shown the possibility for significant fuel savings through drag reduction. Using two F/A-18 aircraft, NASA Dryden Flight Research Center has investigated flying aircraft in autonomous formation. Positioning the trailing airplane for best drag reduction requires investigation of the wingtip vortex effects induced by the leading airplane. A full accounting of the vortex effect on the trailing airplane is desired to validate vortex-effect prediction methods and provide a database for the design of a formation flight autopilot. A recent flight phase has mapped the complete wingtip vortex effects at two flight conditions with the trailing airplane at varying distances behind the leading one. Force and moment data at Mach 0.56 and an altitude of 25,000 ft and Mach 0.86 and an altitude of 36,000 ft have been obtained with 20, 55, 110, and 190 ft of longitudinal distance between the aircraft. The moments induced by the vortex on the trailing airplane were well within the pilot's ability to control. This report discusses the data analysis methods and vortex-induced effects on moments and side force. An assessment of the impact of the nonlinear vortex effects on the design of a formation autopilot is offered.
Induced Moment Effects of Formation Flight Using Two F/A-18 Aircraft
AIAA Atmospheric Flight Mechanics Conference and Exhibit ; 2002 ; Monterey, CA, United States
2002-08-01
Miscellaneous
No indication
English
AIAA-2002-4489 Induced Moment Effects of Formation Flight Using Two F/A-18 Aircraft
British Library Conference Proceedings | 2002
|Automatic Commercial Aircraft Formation Flight
IEEE | 2019
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