Effect Of Motion Cues During Complex Curved Approach And Landing Tasks A Piloted Simulation Study

Effect of Motion Cues During Complex Curved Approach and Landing Tasks

A piloted simulation study was conducted to examine the effect of motion cues using a high fidelity simulation of commercial aircraft during the performance of complex approach and landing tasks in the Microwave Landing System (MLS) signal environment. The data from these tests indicate that in a high complexity MLS approach task with moderate turbulence and wind, the pilot uses motion cues to improve path tracking performance. No significant differences in tracking accuracy were noted for the low and medium complexity tasks, regardless of the presence of motion cues. Higher control input rates were measured for all tasks when motion was used. Pilot eye scan, as measured by instrument dwell time, was faster when motion cues were used regardless of the complexity of the approach tasks. Pilot comments indicated a preference for motion. With motion cues, pilots appeared to work harder in all levels of task complexity and to improve tracking performance in the most complex approach task. Scanlon, Charles H. Langley Research Center NASA-TP-2773, L-16351, NAS 1.60:2773 NCC1-107; RTOP 505-66-41-57

Effect of Motion Cues During Complex Curved Approach and Landing Tasks: A Piloted Simulation Study

Effect of Motion Cues During Complex Curved Approach and Landing Tasks