1 / 20

Applied Cognitive Research Institute of Psychology III Dresden University of Technology

Applied Cognitive Research Institute of Psychology III Dresden University of Technology. www.applied-cognition.org. Structure. Dresden University of Technology. Faculty of Mathematics and Natural Sciences. Department of Psychology. Institute of Psychology I. Institute of Psychology II.

barr
Télécharger la présentation

Applied Cognitive Research Institute of Psychology III Dresden University of Technology

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Applied Cognitive Research Institute of Psychology IIIDresden University of Technology www.applied-cognition.org

  2. Structure Dresden University of Technology Faculty of Mathematics and Natural Sciences Department of Psychology Institute of Psychology I Institute of Psychology II Institute of Psychology III Director: Prof. Boris M. Velichkovsky Applied Cognitive Research Dr. Sebastian Pannasch Dipl. Math. Constanze Liebers Dipl. Psych. Sascha Dornhöfer Dipl. Psych. Markus Joos Dipl. Inf. Sascha Weber Dipl. Psych. Jens Helmert Dipl. Psych. Johannes Marx Dipl. Psych. Sven Graupner

  3. Key Research Areas • Cognitive-affective Science e.g. Evolutionary Levels of Processing • Hazard Cognition and Driving Simulation • Two Visual Systems and their Eye-movements • Attentional Landscapes and Usability • VR-based Hypercom with Joint-Attention Support

  4. 8% The interval of 80-120ms following the distractor onset shows an underrepresentation of fixations for both modalities 6% 4% distractor no auditory 2% visual 0% 0 40 80 280 320 360 400 440 480 520 560 600 640 680 720 760 240 800 840 120 160 200 880 fixation termination latency Basic Research about eye-movement control The Remote Distractor Effect

  5. Distractor Effect

  6. Self-Referential Encoding

  7. Driving simulator studies

  8. Driving simulator studies (A) Mean fixation durations around the appearance of red light in the cases of successful braking, categorized by eccentricity. (B) Mean fixation durations for the passing through red light (“0” corresponds to the fixation at the moment of switching to red), categorized by eccentricity.

  9. Ambient Processing Focal Processing

  10. Two visual systems and their Eye-movements • Saccadic amplitude by fixation duration.

  11. Two visual systems and their Eye-movements d‘ as a function of visual prosessing mode

  12. Attentional Landscapes & Usability from Velichkovsky, Pomplun & Rieser,1996

  13. Attentional Landscapes & Usability

  14. Equipment • SIRCA Driving Simulator from ARTEC Group • 3 SR Research Eyelink Systems • 1 LC Technologies binocular Eyegaze System

  15. Eyetracker Driving Simulator Control PC Eyetracking PC SIRCA Driving Simulator

  16. SR Research Eyelink Systems • Features: • Accuracy: Typical average bias error .50 degrees. • • Head Based Video Tracking: The System can compensate for head movements. • • Temporal Resolution: 4ms at250Hz sampling-rate.

  17. LC Technologies binocular Eyegaze System • Features: • Calibration: Calibration is fully automated, fast, easy and can be saved for later sessions. • • Accuracy: The tracking is highly accurate and tolerant to many variations (e.g. pupil drift) typical average bias error .45 degrees. • • Remote Video Tracking: The System is unobtrusive and undistracting. • • Temporal Resolution: 8,3ms at120Hz sampling-rate (binocular)

More Related