Biodynamic feedthrough (BDFT) is a key issue for touchscreen operations on the future flight deck, as cockpit accelerations due to turbulence leave pilots vulnerable to erroneous touches that disrupt task performance. This research focuses on the implementation of a software-based cancellation approach to mitigate the adverse effects of BDFT in touchscreen dragging tasks. A flight-simulator experiment with 18 participants was performed to estimate models of BDFT dynamics for horizontal and vertical touch-inputs on a primary flight display. The averaged BDFT models were used to cancel BDFT in the same continuous dragging task used for model identification and a discrete point-to-point dragging task. While for the continuous task the cancella...
Biodynamic feedthrough (BDFT) is the feedthrough of vehicle accelerations through the human body, le...
Consumer market touch screens ubiquity has driventhe avionics industry to launch in depth evaluation...
© Springer International Publishing AG, part of Springer Nature 2018. Incorporating touch screen int...
The anticipated arrival of touchscreens on the commercial flight deck will make pilots vulnerable to...
Implementation of touchscreen technology on the flight deck has already been announced by multiple a...
This paper describes a human-in-the-loop experiment performed in TU Delft’s SIMONA Research Simulato...
International audienceTouchscreen input in commercial aircraft cockpits offers potential advantages,...
Use of touchscreens in the flight deck has been steadily increasing, however their usability may be ...
We contribute to a project introducing the use of a large single touch-screen as a concept for futur...
This paper studies the use of touchscreen displays on the flight deck, focusing on the usability of ...
In this study, to dig into the further potential application of the touchscreen in flight operation,...
As touch screens are everywhere in the consumer market Thales has launched in depth evaluations on t...
The developing technology on innovative touchscreen applied in the cockpit can integrate control inp...
Future flight deck designs from various avionics manufacturer incorporate touchscreen technology. Th...
Introduction. The innovative concept on applying touchscreen controls on the flight deck design had ...
Biodynamic feedthrough (BDFT) is the feedthrough of vehicle accelerations through the human body, le...
Consumer market touch screens ubiquity has driventhe avionics industry to launch in depth evaluation...
© Springer International Publishing AG, part of Springer Nature 2018. Incorporating touch screen int...
The anticipated arrival of touchscreens on the commercial flight deck will make pilots vulnerable to...
Implementation of touchscreen technology on the flight deck has already been announced by multiple a...
This paper describes a human-in-the-loop experiment performed in TU Delft’s SIMONA Research Simulato...
International audienceTouchscreen input in commercial aircraft cockpits offers potential advantages,...
Use of touchscreens in the flight deck has been steadily increasing, however their usability may be ...
We contribute to a project introducing the use of a large single touch-screen as a concept for futur...
This paper studies the use of touchscreen displays on the flight deck, focusing on the usability of ...
In this study, to dig into the further potential application of the touchscreen in flight operation,...
As touch screens are everywhere in the consumer market Thales has launched in depth evaluations on t...
The developing technology on innovative touchscreen applied in the cockpit can integrate control inp...
Future flight deck designs from various avionics manufacturer incorporate touchscreen technology. Th...
Introduction. The innovative concept on applying touchscreen controls on the flight deck design had ...
Biodynamic feedthrough (BDFT) is the feedthrough of vehicle accelerations through the human body, le...
Consumer market touch screens ubiquity has driventhe avionics industry to launch in depth evaluation...
© Springer International Publishing AG, part of Springer Nature 2018. Incorporating touch screen int...