TY - JOUR
T1 - Effect of Novel Adaptive Displays on Pilot Performance and Workload
AU - Liu, Dahai
AU - Guarino, Sean L.
AU - Roth, Emilie
AU - Harper, Karen
AU - Vincenzi, Dennis
N1 - The effect of adaptive display on pilot performance was assessed using objective and subjective measures from a sequence of 2 experiments. Combat aircraft advances have led to dramatic increases in the operational tempo facing the pilot, increasing the likelihood for situation awareness (SA) failures, biases, and information overload.
PY - 2008
Y1 - 2008
N2 - The effect of adaptive display on pilot performance was assessed using objective and subjective measures from a sequence of 2 experiments. Combat aircraft advances have led to dramatic increases in the operational tempo facing the pilot, increasing the likelihood for situation awareness (SA) failures, biases, and information overload. Prior research suggests that adaptive interface might help to address this issue. We designed and evaluated 2 interfaces targeted at problem areas for pilots: a weapons employment zone (WEZ) display designed to support awareness of combat geometry, and an adaptive border display (ABD) designed to warn pilots of impending border infractions breaking rules of engagement. Two experiments were conducted under various levels of scenario complexities to test the ability of these displays to improve SA, reduce workload, and improve objective performance in a population of licensed civilian pilots. Study 1 results showed that the WEZ display significantly improved both performance and SA, and reduced workload. However, there were no significant effects of the ABD. In the second study, we used substantially more complex scenarios to investigate the effect of the ABD. Results showed that in these situations, the ABD had a significant effect on improving pilot performance. The results demonstrate the value of adaptive visualizations that highlight key aspects of the environment that impact performance. Although the results have verified the benefits of adaptive displays, more sensitive performance measures and diverse test pilots are suggested in the future to provide more confidence in applying these findings. Potential application of this research includes modern aircraft cockpit interface design under complex combat scenarios.
AB - The effect of adaptive display on pilot performance was assessed using objective and subjective measures from a sequence of 2 experiments. Combat aircraft advances have led to dramatic increases in the operational tempo facing the pilot, increasing the likelihood for situation awareness (SA) failures, biases, and information overload. Prior research suggests that adaptive interface might help to address this issue. We designed and evaluated 2 interfaces targeted at problem areas for pilots: a weapons employment zone (WEZ) display designed to support awareness of combat geometry, and an adaptive border display (ABD) designed to warn pilots of impending border infractions breaking rules of engagement. Two experiments were conducted under various levels of scenario complexities to test the ability of these displays to improve SA, reduce workload, and improve objective performance in a population of licensed civilian pilots. Study 1 results showed that the WEZ display significantly improved both performance and SA, and reduced workload. However, there were no significant effects of the ABD. In the second study, we used substantially more complex scenarios to investigate the effect of the ABD. Results showed that in these situations, the ABD had a significant effect on improving pilot performance. The results demonstrate the value of adaptive visualizations that highlight key aspects of the environment that impact performance. Although the results have verified the benefits of adaptive displays, more sensitive performance measures and diverse test pilots are suggested in the future to provide more confidence in applying these findings. Potential application of this research includes modern aircraft cockpit interface design under complex combat scenarios.
KW - pilot performance
KW - adaptive displays
KW - combat aircraft
KW - complex technologies
KW - situational awareness
UR - https://www.tandfonline.com/doi/full/10.1080/10508414.2012.691040
U2 - 10.1080/10508414.2012.691040
DO - 10.1080/10508414.2012.691040
M3 - Article
VL - 22
JO - The International Journal of Aviation Psychology
JF - The International Journal of Aviation Psychology
ER -