A simple vision-based head tracking method for eye-controlled human/computer interface
International Journal of Human-Computer Studies
An Algorithm for Real-Time Stereo Vision Implementation of Head Pose and Gaze Direction Measurement
FG '00 Proceedings of the Fourth IEEE International Conference on Automatic Face and Gesture Recognition 2000
Mapping eye movements to cognitive processes
Mapping eye movements to cognitive processes
Combining environmental cues & head gestures to interact with wearable devices
ICMI '05 Proceedings of the 7th international conference on Multimodal interfaces
Computational mechanisms for gaze direction in interactive visual environments
Proceedings of the 2006 symposium on Eye tracking research & applications
Measuring the perceptual image quality of a sight effectiveness enhancement system for cars
EACE '05 Proceedings of the 2005 annual conference on European association of cognitive ergonomics
Applying computational tools to predict gaze direction in interactive visual environments
ACM Transactions on Applied Perception (TAP)
Take me home: designing safer in-vehicle navigation devices
CHI '09 Extended Abstracts on Human Factors in Computing Systems
Interacting with in-vehicle systems: understanding, measuring, and evaluating attention
Proceedings of the 23rd British HCI Group Annual Conference on People and Computers: Celebrating People and Technology
Trajectory mapping for landmine detection training
ICCS'03 Proceedings of the 2003 international conference on Computational science: PartIII
Towards location-aware mobile eye tracking
Proceedings of the Symposium on Eye Tracking Research and Applications
Guiding attention in controlled real-world environments
Proceedings of the ACM Symposium on Applied Perception
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It is now evident from anecdotal evidence and preliminary research that distractions can hinder the task of operating a vehicle, and consequently reduce driver safety. However with increasing wireless connectivity and the portability of office devices, the vehicle of the future is visualized as an extension of the static work place - i.e. an office-on-the-move, with a phone, a fax machine and a computer all within the reach of the vehicle operator. For this research a Head mounted Eye-tracking Device (HED), is used for tracking the eye movements of a driver navigating a test route in an automobible while completing various driving tasks. Issues arising from data collection of eye movements during the completion of various driving tasks as well as the analysis of this data are discussed. Methods for collecting video and scan-path data, as well as difficulties and limitations are also reported.