Flight Test Results for the F-16XL With a Digital Flight Control System

In the early 1980s, two F-16 airplanes were modified to extend the fuselage length and incorporate a large area delta wing planform. These two airplanes, designated the F-16XL, were designed by the General Dynamics Corporation (now Lockheed Martin Tactical Aircraft Systems) (Fort Worth, Texas) and were prototypes for a derivative fighter evaluation program conducted by the United States Air Force. Although the concept was never put into production, the F-16XL prototypes provided a unique planform for testing concepts in support of future high-speed supersonic transport aircraft. To extend the capabilities of this testbed vehicle the F-16XL ship 1 aircraft was upgraded with a digital flight control system. The added flexibility of a digital flight control system increases the versatility of this airplane as a testbed for aerodynamic research and investigation of advanced technologies. This report presents the handling qualities flight test results covering the envelope expansion of the F-16XL with the digital flight control system.

[1]  George E. Cooper,et al.  The use of pilot rating in the evaluation of aircraft handling qualities , 1969 .

[2]  Ralph H Smith,et al.  Handling Quality Requirements for Advanced Aircraft Design: Longitudinal Mode , 1979 .

[3]  John T. Bosworth,et al.  Evaluation of High-Angle-of-Attack Handling Qualities for the X-31A Using Standard Evaluation Maneuvers , 1997 .

[4]  Marta Bohn-Meyer,et al.  Overview of supersonic laminar flow control research on the F-16XL ships 1 and 2 , 1992 .

[5]  Stephen J. Monagan,et al.  Lateral Flying Qualities of Highly Augmented Fighter Aircraft. Volume 2 , 1982 .

[6]  John Hodgkinson,et al.  Aircraft Handling Qualities , 1999 .

[7]  Stephen A. Whitmore,et al.  Preliminary airborne measurements for the SR-71 sonic boom propagation experiment , 1995 .

[8]  R. E. Smith,et al.  Analysis of augmented aircraft flying qualities through application of the Neal-Smith criterion , 1981 .

[9]  John W. Smith,et al.  Biomechanically Induced and Controller Coupled Oscillations Experienced on the F-16XL Aircraft During Rolling Maneuvers , 1996 .

[10]  David F. Voracek Ground Vibration and Flight Flutter Tests of the Single-seat F-16XL Aircraft with a Modified Wing , 1993 .

[11]  Ralph H Smith,et al.  A Theory for Longitudinal Short-Period Pilot Induced Oscillations. , 1977 .

[12]  J. Hodgkinson,et al.  Equivalent system approaches to handling qualities analysis and design problems of augmented aircraft , 1977 .

[13]  Patrick K. Talty,et al.  F-16XL demonstrates new capabilities in flight test at Edwards Air Force Base , 1988 .