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EyeLink 1000/2k and EyeLink Remote Introduction and Training Session

EyeLink 1000/2k and EyeLink Remote Introduction and Training Session. SR Research Ltd. Toronto - Ottawa, Canada. Agenda. Functional system overview System architecture Eye tracking experiment process EyeLink recording data / Data Viewer Analog card EyeLink support. EyeLink CL Overview.

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EyeLink 1000/2k and EyeLink Remote Introduction and Training Session

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  1. EyeLink 1000/2k andEyeLink Remote Introduction and Training Session SR Research Ltd. Toronto - Ottawa, Canada

  2. Agenda • Functional system overview • System architecture • Eye tracking experiment process • EyeLink recording data / Data Viewer • Analog card • EyeLink support

  3. EyeLink CL Overview • Focal Imaging Technology • Large camera field of view • High resolution eye data • EyeLink CL hardware • EyeLink CL High Speed Infrared Camera • IR illuminator • CameraLink cable • Custom High Speed Image Processing Board

  4. EyeLink CL Overview • Extendable Hardware Platform • EyeLink Tower • EyeLink Desktop • EyeLink Primate • EyeLink Remote • Complete Software Package • Host Eye Tracker Application • Application Programming Interface

  5. EyeLink Tower and Desktop • Fastest Sampling Rate: • 2000 / 1000 / 500 / 250 Hz recording • High Resolution: • 0.01 ° RMS in pupil-CR 1000 Hz tracking mode • Accurate: • Drift free, down to 0.15° average accuracy (0.25 - 0.5° typical) • Real-time: • Access eye position data with < 2-ms delay

  6. EyeLink Tower and Desktop • Easy: • Fast and simple setup, calibration and validation • Comfortable: • Head-supported design • Real-time operator feedback • Compatible: • With EyeLink I and II display software • Works with E-Prime, Presentation, and other 3rd party experiment software

  7. EyeLink Tower and Desktop

  8. EyeLink Tower and Desktop

  9. EyeLink Tower and Desktop • Tower Mount: • Larger tracking range: (55 horizontal, 45 vertically vs. 32 horizontal, 25 vertical) • Minimal adjustments • Desktop Mount: • Supports monocular and binocular tracking • Compact, mirror-less mount and more portable • More compatible with glasses • More portable.

  10. System Architecture

  11. System Architecture Host Application • Controls the eye tracker • Performs image analysis • Performs data recording • Performs eye event parsing • Configures preferences • Provides real-time feedback • Gaze view: Gaze cursor on background image • Plot view: Eye traces over time • Controls other optional setups • Analog output board • Gaze video overlay system

  12. System Architecture Display PC Software • Allow full experiment control • Integrates calibration and gaze position collection into one step • Sets any tracker preference • Sends commands to control tracker • Time stamps experiment events with messages • Real-time access to eye sample and eye event data structures • Allows the users to focus on stimulus presentation and data analysis

  13. Eye Tracking Experiment Process • Pre-Experiment activities • Check Tracker Settings (Set Options Screen) • Participant setup • Calibration • Validation • Running the experiment • Blocks • Trials • Optional drift correction/drift checking • Recording and data acquisition • Data analysis

  14. Participant Setup Camera Setup Screen

  15. Participant SetupMirrored Mount • The participant setup becomes a smooth and fast procedure with practise. Try to follow the steps below: • Set the height of the monitor and height of the tower mount • Set the eye-selection knob to track the intended eye • Set the mirror at the intended angle • Adjust the chair height as well as the chinrest position • Find the pupil by clicking on the eye image • Focus the eye camera • Adjust the thresholding level for pupil and CR • Check the setup by asking the subject to look at four corners • Calibration, validation and recording

  16. Participant SetupDesktop Mount • The participant setup becomes a smooth and fast procedure with practise. Try to follow the steps below: • Place the monitor at the intended distance and height • Set up the desktop optics; check out the height of the mount • Adjust the chair height as well as the chinrest position • Adjust the camera angle and position • Find the pupil by clicking on the eye image • Focus the eye camera • Adjust the thresholding level for pupil and CR • Check the setup by asking the subject to look at four corners • Calibration, validation and recording

  17. Participant Setup Optimal Eye Position • Adjust the height of the chair so that the subject is comfortable and his/her eye line is aligned to upper part of the monitor. • The position of the forehead rest should be just above the eye brow. The figures on the right shows that the subject is seated too high (top-right) or too low (bottom-right).

  18. Participant Setup Search Limits: when to use and how to enable • The Search Limits box (red box) can be used to reduce the area of the full camera image that is searched to find the eye. • Normally the search limits box is not needed, however with some participants glasses it can be used to exclude other regions of the camera image that may otherwise be detected as a pupil / CR reflection pattern. • The disadvantage of the search limit is that if the participant completely removes their head from the head support and then puts it back in the head support device the search limits box may not be in the correct location to track the eye.

  19. Participant Setup Adjusting Search Limits • Press “Use Search Limits” to toggle on /off search limits. • Use ALT and cursor keys to adjust the shape of the search limits. • Use SHIFT and cursor keys to adjust the position of the search limits.

  20. Participant Setup Centroid Vs. Ellipse Pupil Tracking Modes • The Centroid mode tracks the centre of the thresholded pupil using a centre of mass algorithm. • This modes advantage is that it has very low noise. • The disadvantage of this mode is eye position can drift if there is significant occlusion of the pupil (for example by eyelids). • The Ellipse mode determines the centre of the pupil by fitting an ellipse to the thresholded pupil mass. • The advantage of this mode is decreased drift potential. It can cope well with pupil occlusion. • The disadvantage is that it has a higher noise level.

  21. Participant Setup Focusing the Eye Camera Focusing Arm Focused Not Focused

  22. Participant Setup Setting Pupil Threshold Figure 1 The pupil threshold can be adjusted automatically, through the Auto-threshold command, or manually, through the up/down arrow. A threshold too low will result in shadows (figure.1), while a threshold too high will result in a noisy signal (figure. 2). Figure 2

  23. Participant Setup Symptoms of Poor Pupil Threshold Pupil clipped and lost Good Corner Shadow captures pupil

  24. Participant Setup Setting Corneal Reflection (CR) Good Corneal Reflection Poor Corneal Reflection

  25. Participant Setup Binocular vs. Monocular Mount

  26. Participant Setup Participant Setup Subjects wearing glasses Binocular Setup Good mirror angle Poor mirror angle

  27. Participant Setup Participants with glasses

  28. Status Panel Monitor the status of camera image of the tracked eye throughout setup, calibration, validation and recording phases. Pupil OK (green): Pupil present and can be tracked at selected sample rate SIZE (yellow): Occurs when the pupil size is larger than the maximum allowed pupil size MISSING (red): Pupil not present Corneal (only operational in Pupil-CR mode) OK (green): Corneal reflection is present and can be tracked MISSING (red): Corneal reflection is not present

  29. Calibration Mapping raw eye data to either gaze position or HREF coordinate

  30. Calibration Always checks for the calibration grid at the end of calibration. Good Calibration Poor Calibration

  31. Calibration • Improving calibration accuracy: • • Always ask the subject to look at the four corners of the display after performing the camera setup. Watch for the pupil or CR warning signals on the tracker screen due to pupil occlusion or improper thresholding. • Ensure that the threshold pupil area be inside the pupil box when the subject is looking at any area of the display. • The corneal reflection should never be lost or misidentified when the subject looks around the calibrated area.

  32. Calibration Improving calibration accuracy (continued): • Encourage the subjects to sit still! • Subjects who have never been calibrated before require some practice in stably fixating the calibration targets. Try to perform at least two calibrations per subject before beginning to collect data. • Try to match the background color of the screen during calibration and validation to that of the test displays. Changes in pupil size caused by large brightness differences will reduce recording accuracy.

  33. Validation Checking gaze accuracy of the calibration

  34. Validation • Validation Results: • GOOD (green background): Errors are acceptable. • FAIR (grey background): Errors are moderate, calibration • should be improved. • POOR: (red background): Errors are too high for useful • eye tracking. • In general, ensure that the average gaze error is within 0.5 and maximum error within 1.0

  35. Recording Gaze View

  36. Recording Plot View

  37. EyeLink Remote • Accurate: • 0.5° average accuracy • Fastest Remote Sampling Rate: • 500 Hz monocular eye tracking • Real-time: • Access eye position data with 3.0 msec delay • Head Free: • 22 x 18 x 20 cm (horizontal x vertical x depth) allowable head movement at a 60 cm camera distance

  38. EyeLink Remote • Reliable Head Distance Tracking: • Maximum head movement speed of 100 cm / second, even during blinks • Robust Blink Recovery: • Recovery time of 2 msec • Online Saccade Detection: • Reliably monitor both fixation and saccade events of as low as one degree • Dual Purpose Eye Tracker: • Quickly switch between the EyeLink Desktop and EyeLink Remote systems.

  39. EyeLink Remote

  40. EyeLink Remote

  41. EyeLink Remote • The participant setup becomes a smooth and fast procedure with practise. Try to follow the steps below: • Use proper lens; set the ELCL configuration to “Remote (Level)”; • Set the height of the monitor; eye-screen distance at about 70 cm • Place the camera right in front of the monitor • Raised the desktop mount to maximize tracking range. • Seat the subject and place the target sticker • Find the pupil by clicking on the eye image • Adjust the thresholding bias for pupil and CR • Check the setup by asking the subject to look at four corners • Calibration, validation and recording

  42. EyeLink Remote • Place the target sticker on the subject’s forehead, just above the eyebrow of the tracked eye • The eye and the sticker stay within the camera image when the subject’s head moves • An ideal target-camera distance should be about 550 mm to 600 mm

  43. EyeLink Remote Target is too close to the eye vertically Target has a large angle

  44. EyeLink Remote Pupil threshold bias adjusted by UP or DOWN cursor keys (1.08 typical) CR threshold bias adjusted by – or + keys (1.00 typical) .

  45. EyeLink Remote • Monitor the thumbnail camera images at the lower left corner of the tracker screen • The two dots in the middle panel reflect the target and eye position in the global camera image • For reliable tracking, both dots should stay within the red box.

  46. EyeLink Remote Pupil OK: Pupil present and can be tracked at selected sample rate SIZE: Occurs when the pupil size is larger than the maximum allowed pupil size or smaller than the required size (e.g., too bright or small pupil) MISSING: Pupil not present Status Panel Corneal OK: Corneal reflection is present and can be tracked MISSING: Corneal reflection is not present Target OK: Target is present and can be tracked MISSING:Target is not present. EYEDIST: Target is placed too close to the eye on the vertical dimension. ANGLE: Target has too large an angle to be recognized properly.

  47. TrackerSettings

  48. Link/Analog Filter

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