Komogortsev, O., Holland, C., Camou, J.: Adaptive eye-gaze-guided interfaces: design & performance evaluation. In: Proceedings of Human-Computer Interaction - INTERACT 2005, IFIP TC13 International Conference, Rome, Italy, 12–16 September 2005. Räihä, K.-J., Aula, A., Majaranta, P., et al.: Static visualization of temporal eye-tracking data. In: Extended Abstracts Proceedings of the 2007 Conference on Human Factors in Computing Systems, CHI 2007, San Jose, California, USA, 28 April–. Kumar, M., Winograd, T.: GUIDe: gaze-enhanced UI design. ![]() Jacob, R.J.K., Karn, K.S.: Eye tracking in human-computer interaction and usability research: ready to deliver the promises. Experiments investigated the effects of color combination of icon on visual search performance were done based on the proposed system. Then according to the uniqueness of eye-controlled interaction, an eye control interactive logic algorithm is developed through the Tobii API combined with the Unity API. This study firstly analyzes and summarize the difference of eye-control system and traditional interface through surveys and literature reviews. This study proposed an eye controlled system frame to help researchers and designers to explore eye control system interface design because eyes are the only real-time input medium for eye control system. ![]() ![]() Meanwhile, because of its natural and high-efficiency, eye controlled system could be the future trend not only for the disabled but also ordinary people. Eye controlled, as one of new interaction form, will help people with physical disability to manipulate devices as normal users. Traditional interactive approach which has been developed very mature has evolved from mouse control to many other forms.
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