The concept of an innovative human–machine interface and interaction modes based on virtual and augmented reality technologies for airport control towers has been developed with the aim of increasing the human performances and situational awareness of air traffic control operators. By presenting digital information through see-through head-mounted displays superimposed over the out-of-the-tower view, the proposed interface should stimulate controllers to operate in a head-up position and, therefore, reduce the number of switches between a head-up and a head-down position even in low visibility conditions. This paper introduces the developed interface and describes the exercises conducted to validate the technical solutions developed, focusing on the simulation platform and exploited technologies, to demonstrate how virtual and augmented reality, along with additional features such as adaptive human–machine interface, multimodal interaction and attention guidance, enable a more natural and effective interaction in the control tower. The results of the human-in-the-loop real-time validation exercises show that the prototype concept is feasible from both an operational and technical perspective, the solution proves to support the air traffic controllers in working in a head-up position more than head-down even with low-visibility operational scenarios, and to lower the time to react in critical or alerting situations with a positive impact on the human performances of the user. While showcasing promising results, this study also identifies certain limitations and opportunities for refinement, aimed at further optimising the efficacy and usability of the proposed interface.

Bagassi S., Corsi M., De Crescenzio F., Santarelli Ramona, Simonetti A., Moens L., et al. (2024). Virtual/augmented reality-based human–machine interface and interaction modes in airport control towers. SCIENTIFIC REPORTS, 14(1), 1-18 [10.1038/s41598-024-63731-3].

Virtual/augmented reality-based human–machine interface and interaction modes in airport control towers

Bagassi S.
;
Corsi M.;De Crescenzio F.;
2024

Abstract

The concept of an innovative human–machine interface and interaction modes based on virtual and augmented reality technologies for airport control towers has been developed with the aim of increasing the human performances and situational awareness of air traffic control operators. By presenting digital information through see-through head-mounted displays superimposed over the out-of-the-tower view, the proposed interface should stimulate controllers to operate in a head-up position and, therefore, reduce the number of switches between a head-up and a head-down position even in low visibility conditions. This paper introduces the developed interface and describes the exercises conducted to validate the technical solutions developed, focusing on the simulation platform and exploited technologies, to demonstrate how virtual and augmented reality, along with additional features such as adaptive human–machine interface, multimodal interaction and attention guidance, enable a more natural and effective interaction in the control tower. The results of the human-in-the-loop real-time validation exercises show that the prototype concept is feasible from both an operational and technical perspective, the solution proves to support the air traffic controllers in working in a head-up position more than head-down even with low-visibility operational scenarios, and to lower the time to react in critical or alerting situations with a positive impact on the human performances of the user. While showcasing promising results, this study also identifies certain limitations and opportunities for refinement, aimed at further optimising the efficacy and usability of the proposed interface.
2024
Bagassi S., Corsi M., De Crescenzio F., Santarelli Ramona, Simonetti A., Moens L., et al. (2024). Virtual/augmented reality-based human–machine interface and interaction modes in airport control towers. SCIENTIFIC REPORTS, 14(1), 1-18 [10.1038/s41598-024-63731-3].
Bagassi S.; Corsi M.; De Crescenzio F.; Santarelli Ramona; Simonetti A.; Moens L.; Terenzi M.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/983919
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