The take-off phase is crucial for the success or failure of a flight mission,with appropriate climb altitudes being essential to ensure successful take-off.In order to predict and assess abnormal phenomena in climb altitudes,the key predictive parameters were investigated that led to abnormal climb altitudes.The research was based on a virtual reality(VR)flight simulator,focusing on the take-off phase of the Cessna152 aircraft.Thirty-one participants were recruited to engage in simulated flight tasks,resulting in the collection of 180 effective data samples from novice flights.Based on the simulator's quick access recorder(QAR)data,key QAR parameters that affect abnormal climb altitudes were identified through clustering and correlation analysis.Subsequently,regression analysis was employed to explore the relationship between these key parameters and the abnormality in climb altitudes.The findings indicate that the average flight speed and maximum pitch angle are the primary QAR parameters influencing flight altitude,jointly accounting for 70.2%of the abnormality in climb altitudes.
维普
万方数据