Correlation of the Continuous Beta Sweep Test and Analysis Technique to Transonic Free-to-Roll and Flight Test Results
暂无分享,去创建一个
D. B. Owens | Henrik Pettersson | Terence A. Ghee | D. Bruce Owens | Hugo A. Gonzalez | Stephen P. Cook | Alex Kokolios | H. Pettersson | H. Gonzalez | S. Cook | T. Ghee | Alexander Kokolios
[1] Francis J. Capone,et al. AWS Figure of Merit (FOM) Developed Parameters from Static, Transonic Model Tests , 2003 .
[2] Philip Payne,et al. Predicting Wing Drop in the Harrier II Using the Static Wind Tunnel Test and Analysis Technique CBSTAT , 2004 .
[3] Michael Roesch,et al. Flight-Test Assessment of Lateral Activity , 2005 .
[4] Jay M. Brandon,et al. Transonic Free-To-Roll Analysis of the F/A-18E and F-35 Configurations , 2004 .
[5] J. R. Chambers,et al. An Integrated Approach to Assessment of Abrupt Wing Stall for Advanced Aircraft (Invited) , 2003 .
[6] Francis J. Capone,et al. Free-To-Roll Analysis of Abrupt Wing Stall on Military Aircraft at Transonic Speeds , 2003 .
[7] Naval Air Systems Command,et al. Wind Tunnel Investigation of Pre-Production F/A-18E Lateral Characteristics Using Continuous Beta Sweep Test & Analysis Technique (CBSTAT) , 2004 .
[8] Robert M. Hall,et al. Historical Review of Uncommanded Lateral-Directional Motions at Transonic Conditions , 2004 .
[9] Jeffrey K. McConnell. Continuous Beta Sweep Test & Analysis Technique (CBSTAT) for Predicting Wing Drop Based on Static Wind Tunnel Testing , 2004 .