Loss of Control in Flight: comparing qualitative pilot opinion with quantitative flight data
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Mike Bromfield | Jorge Henrique Bidinotto | Joao Paulo Cassiano de Macedo | J. Macedo | M. Bromfield | J. Bidinotto
[1] D. Mitchell. Fifty Years of the Cooper-Harper Scale , 2019, AIAA Scitech 2019 Forum.
[2] David J. Wilson,et al. Cooper-Harper pilot rating variability , 1989 .
[3] Thomas Cleff. Exploratory Data Analysis in Business and Economics , 2014 .
[4] Eduardo Morgado Belo,et al. Latency on a Stewart platform using washout filter , 2018, The Aeronautical Journal.
[5] Richard Newman,et al. Airplane Upsets: Old Problem, New I ssues * , 2008 .
[6] Raghu Venkataraman,et al. Quantifying loss-of-control envelopes via robust tracking analysis , 2017 .
[7] John V. Foster,et al. Defining Commercial Transport Loss-of-Control: A Quantitative Approach , 2004 .
[8] Steven J. Landry,et al. Loss of Control In Flight (LOC-I) – Time to Re-define? , 2019 .
[9] Christine M. Belcastro,et al. Validation of Safety-Critical Systems for Aircraft Loss-of-Control Prevention and Recovery , 2012 .
[10] Christine M. Belcastro,et al. Aircraft Loss of Control: Problem Analysis for the Development and Validation of Technology Solutions , 2016 .
[11] Neha Gandhi,et al. Vehicle Upset Detection and Recovery for Onboard Guidance and Control , 2017 .