Nýjungar frá CeBIT
Á þessari slóð : http://web.mac.com/einar_reynis1 má finna nýjungar frá CeBIT 2007
Thank you for visiting our booth at CeBIT showing your interest in our products and the eye tracking technology! This year’s event in Hannover was a particularly great success and we are very happy having encountered such a great interest!
This time we also had the great privilege to sneak pre-release a new generation of eye tracking: the Tobii S60 & S120 Eye Trackers. These eye trackers offer twice as much head movement box as Tobii 1750, will be twice as accurate, offer much lower noise, include an embedded eye tracker server, integrated speakers and user camera etc etc. The Tobii S120 Eye Tracker will be similar in characteristics, but offer 120 hz data rate. Please find more detailed information about these in the attached file.
With this email, we would like to give you some general information about Tobii and more important about our Eye Tracking solutions. Please feel free to request more detailed information; if you had requested an individual contact our sales representative will get in touch with you shortly.
As you might already know, Tobii Technology is a world leader in hardware and software solutions for eye tracking. We have sales offices in Sweden, Germany and the US. To get in contact with us, please email sales@tobii.com or call one of our sales offices directly:
Sweden: +46 8 663 69 90
Germany: + 49 69 75 93 87 80
USA: +1 709 918 4924
Eye tracking enables a computer to tell exactly where a person is looking. Based on state-of-the-art components and methods, Tobii uses a range of innovative techniques to provide eye tracking solutions.
Key advantages of Tobii’s eye tracking technology are:
· Fully automatic eye tracking
· High tracking accuracy
· Tracks nearly all people
· Complete non-intrusiveness
· Good tolerance of head-motion
Tobii’s eye tracking technology utilizes advanced image processing of a person’s face, eyes and reflections in the eyes of near-infrared reference lights to accurately estimate:
· the 3D position in space of each eye
· the precise target to which each eye gaze is directed towards