vehicle tracking devices

H13 TRACKING EOG Derived from original work created by Pr Jean-Frans Lambert and Nicole Chantrier, Institut d'Enseignement istance / Universitaris 8- Saint-Denis France EXPERIMENTAL OBJECTIVES To observe TRACKING movements used while watching a moving object. To demonstrate the difference between eye movement based on actual visual stimulation and imagined recreations. TASKS PERFORMED BY THE STUDENT Subject will: visually follow the movement of a pendulum without moving head and imagine (simulate) the same

H13 TRACKING EOG Derived from original work created by Pr Jean-Frans Lambert and Nicole Chantrier, Institut d'Enseignement istance / Universitaris 8- Saint-Denis France EXPERIMENTAL OBJECTIVES To observe TRACKING movements used while watching a moving object. To demonstrate the difference between eye movement based on actual visual stimulation and imagined recreations. TASKS PERFORMED BY THE STUDENT Subject will: visually follow the movement of a pendulum without moving head and imagine (simulate) the same

H13 TRACKING EOG Derived from original work created by Pr Jean-Frans Lambert and Nicole Chantrier, Institut d'Enseignement istance / Universitaris 8- Saint-Denis France EXPERIMENTAL OBJECTIVES To observe TRACKING movements used while watching a moving object. To demonstrate the difference between eye movement based on actual visual stimulation and imagined recreations. TASKS PERFORMED BY THE STUDENT Subject will: visually follow the movement of a pendulum without moving head and imagine (simulate) the same

H13 TRACKING EOG Derived from original work created by Pr Jean-Frans Lambert and Nicole Chantrier, Institut d'Enseignement istance / Universitaris 8- Saint-Denis France EXPERIMENTAL OBJECTIVES To observe TRACKING movements used while watching a moving object. To demonstrate the difference between eye movement based on actual visual stimulation and imagined recreations. TASKS PERFORMED BY THE STUDENT Subject will: visually follow the movement of a pendulum without moving head and imagine (simulate) the same

H13 TRACKING EOG Derived from original work created by Pr Jean-Frans Lambert and Nicole Chantrier, Institut d'Enseignement istance / Universitaris 8- Saint-Denis France EXPERIMENTAL OBJECTIVES To observe TRACKING movements used while watching a moving object. To demonstrate the difference between eye movement based on actual visual stimulation and imagined recreations. TASKS PERFORMED BY THE STUDENT Subject will: visually follow the movement of a pendulum without moving head and imagine (simulate) the same

Eye Tracking Fixed Head EYE Tracking SYS: FIXED HEAD, BINOC - EYEFIXBINO Login for pricing This turnkey eye Tracking system is for users who have their own means of stabilizing the head and mounting the camera. Dual input PCI digitizer (capture) card Two Close Focus Cameras and illuminator systems ViewPoint PC-60 software with binocular option enabled—record vertical position, horizontal position, pupil size, etc.

VR/Immersive Tracking PRECISION POSITION TRACKER - 2 CAMERAS - VRPPT2 Request price Price reflects academic discount The cost-effective two-camera PPT motion capture system offers high-quality optical Tracking over a wide range (more than 10 x 10 meters). It connects directly to the VR Toolkit (included in VR Workstations) for an ideal solution for virtual reality applications. Using proven CCD technology and WorldViz image processing technology, the PPT family of products delivers

flexible and accurate tracking solutions. Real-time technology allows users to see tracking results the instant a subject performs a motion. The eight-camera PPT motion capture system includes: eight optical sensors processor computer with control software cable connections eight infrared targets Advantages over the four-camera system include: tracks eight targets at a time, maximum coverage of tracking workspace (practically no "dead" tracking zones), optimal elimination of line-of-sight

Eye Tracking Fixed Head EYE Tracking SYS: FIXED HEAD, MONOC - EYEFIXMONO Login for pricing This turnkey monocular eye Tracking system is for users who have their own means of stabilizing the head and mounting the camera. PCI digitizer (capture) card Close Focus Camera and illuminator system ViewPoint PC-60 software—record vertical position, horizontal position, pupil size, etc. Analog output (4

This eye tracking system utilizes Arrington Research® technology and includes cables required to interface to a BIOPAC MP SYstem—MP150 or MP100 data acquisition unit and AcqKnowledge software . Connections to use the eye track setup with an MP System with AcqKnowledge : Eye tracking with biopotentials This setup records eye tracking signals and biopotential signals in one data file for comprehensive analysis. Add an HLT100C and one INISO for each eye