The Autonomous Formation Flight research project has been implemented at the NASA Dryden Flight Research Center to demonstrate the benefits of formation flight and develop advanced technologies to facilitate exploiting these benefits. Two F/A-18 aircraft have been modified to precisely control and monitor relative position, and to determine performance of the trailing airplane. Flight test maneuvers and analysis techniques have been developed to determine the performance advantages, including drag and fuel flow reductions and improvements in range factor. By flying the trailing airplane through a matrix of lateral, longitudinal, and vertical offset positions, a detailed map of the performance benefits has been obtained at two flight conditions. Significant performance benefits have been obtained during this flight test phase. Drag reductions of more than 20 percent and fuel flow reductions of more than 18 percent have been measured at flight conditions of Mach 0.56 and an altitude of 25,000 ft. The results show favorable agreement with published theory and generic predictions. An F/A-18 long-range cruise mission at Mach 0.8 and an altitude of 40,000 ft has been simulated in the optimum formation position and has demonstrated a 14-percent fuel reduction when compared with a controlled chase airplane of similar configuration.
Flight Test Techniques Used to Evaluate Performance Benefits During Formation Flight
2002
25 pages
Report
Keine Angabe
Englisch
Aircraft , Meetings , Flight tests , Fuel flow , Drag , Autonomy , Formation flying , Transonic speed , Mach number
AIAA-2002-4492 Flight Test Techniques used to Evaluate Performance Benefits During Formation Flight
British Library Conference Proceedings | 2002
|Performance Flight Test Techniques
NTIS | 1964
|NTIS | 1989