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sub-082_task-memory_eyetrack.json 7.5 KB

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  1. {
  2. "TaskName": "auditory digit span",
  3. "InstitutionName": "Ural Federal University",
  4. "InstitutionAdress": "Yekaterinburg; Russia",
  5. "Manufacturer": "Pupil Labs",
  6. "ManufacturersModelName": "Pupil Core",
  7. "SoftwareVersion": "n/a",
  8. "TaskDescription": "digit span task",
  9. "Instructions": "memory condition: memorize sequence of digits presented by recorded voice and reproduce them verbally when a sign of the microphone appears on the screen; control condition: just linsten to the digits. fixate the cross in the middle of the screen when it appears (which is all time during presentation and retention of the digits)",
  10. "SamplingFrequency": 120,
  11. "SampleCoordinateUnit": "pixel",
  12. "SampleCoordinateSystem": "gaze-in-world",
  13. "EnvironmentCoordinates": "n/a",
  14. "EventIdentifier": "see _events.json",
  15. "RawSamples": 1,
  16. "IncludedEyeMovementEvents": "None",
  17. "DetectionAlgorithm": "None",
  18. "RecordedEye": "BOTH",
  19. "ScreenSize": "n/a",
  20. "ScreenResolution": "1920 x 1080 px",
  21. "AOIDefinition": "n/a",
  22. "CalibrationType": "one point on the screen",
  23. "PupilPositionType": "pupil-in-head",
  24. "data_part": {
  25. "Description": "pupil or gaze data"
  26. },
  27. "blink": {
  28. "Description": "blinks detected by pupil labs software (1 - blink, 0 - no blink detected)"
  29. },
  30. "label": {
  31. "Description": "event codes (described in _events.json)"
  32. },
  33. "timestamp": {
  34. "Description": "timestamp of the source image frame"
  35. },
  36. "index": {
  37. "Description": "associated_frame: closest world video frame"
  38. },
  39. "id": {
  40. "Description": "0 or 1 for right and left eye (from the wearer's point of view)"
  41. },
  42. "confidence": {
  43. "Description": "is an assessment by the pupil detector on how sure we can be on this measurement. A value of `0` indicates no confidence. `1` indicates perfect confidence. In our experience usefull data carries a confidence value greater than ~0.6. A `confidence` of exactly `0` means that we don't know anything. So you should ignore the position data."
  44. },
  45. "norm_pos_x": {
  46. "Description": "x position in the eye image frame in normalized coordinates"
  47. },
  48. "norm_pos_y": {
  49. "Description": "y position in the eye image frame in normalized coordinates"
  50. },
  51. "diameter": {
  52. "Description": "diameter of the pupil in image pixels as observed in the eye image frame (is not corrected for perspective)"
  53. },
  54. "method": {
  55. "Description": "string that indicates what detector was used to detect the pupil"
  56. },
  57. "ellipse_center_x": {
  58. "Description": "x center of the pupil in image pixels"
  59. },
  60. "ellipse_center_y": {
  61. "Description": "y center of the pupil in image pixels"
  62. },
  63. "ellipse_axis_a": {
  64. "Description": "first axis of the pupil ellipse in pixels"
  65. },
  66. "ellipse_axis_b": {
  67. "Description": "second axis of the pupil ellipse in pixels"
  68. },
  69. "ellipse_angle": {
  70. "Description": "angle of the ellipse in degrees"
  71. },
  72. "diameter_3d": {
  73. "Description": "diameter of the pupil scaled to mm based on anthropomorphic avg eye ball diameter and corrected for perspective."
  74. },
  75. "model_confidence": {
  76. "Description": "confidence of the current eye model (0-1)"
  77. },
  78. "model_id": {
  79. "Description": "id of the current eye model. When a slippage is detected the model is replaced and the id changes."
  80. },
  81. "sphere_center_x": {
  82. "Description": "x pos of the eyeball sphere is eye pinhole camera 3d space units are scaled to mm."
  83. },
  84. "sphere_center_y": {
  85. "Description": "y pos of the eye ball sphere"
  86. },
  87. "sphere_center_z": {
  88. "Description": "z pos of the eye ball sphere"
  89. },
  90. "sphere_radius": {
  91. "Description": "radius of the eyeball. This is always 12mm (the anthropomorphic avg.) We need to make this assumption because of the `single camera scale ambiguity`."
  92. },
  93. "circle_3d_center_x": {
  94. "Description": "x center of the pupil as 3d circle in eye pinhole camera 3d space units are mm."
  95. },
  96. "circle_3d_center_y": {
  97. "Description": "y center of the pupil as 3d circle"
  98. },
  99. "circle_3d_center_z": {
  100. "Description": "z center of the pupil as 3d circle"
  101. },
  102. "circle_3d_normal_x": {
  103. "Description": "x normal of the pupil as 3d circle. Indicates the direction that the pupil points at in 3d space."
  104. },
  105. "circle_3d_normal_y": {
  106. "Description": "y normal of the pupil as 3d circle"
  107. },
  108. "circle_3d_normal_z": {
  109. "Description": "z normal of the pupil as 3d circle"
  110. },
  111. "circle_3d_radius": {
  112. "Description": "radius of the pupil as 3d circle. Same as `diameter_3d`"
  113. },
  114. "theta": {
  115. "Description": "circle_3d_normal described in spherical coordinates"
  116. },
  117. "phi": {
  118. "Description": "circle_3d_normal described in spherical coordinates"
  119. },
  120. "projected_sphere_center_x": {
  121. "Description": "x center of the 3d sphere projected back onto the eye image frame. Units are in image pixels."
  122. },
  123. "projected_sphere_center_y": {
  124. "Description": "y center of the 3d sphere projected back onto the eye image frame"
  125. },
  126. "projected_sphere_axis_a": {
  127. "Description": "first axis of the 3d sphere projection."
  128. },
  129. "projected_sphere_axis_b": {
  130. "Description": "second axis of the 3d sphere projection."
  131. },
  132. "projected_sphere_angle": {
  133. "Description": "angle of the 3d sphere projection. Units are degrees."
  134. },
  135. "gaze_timestamp": {
  136. "Description": "timestamp of the source image frame"
  137. },
  138. "gaze_index": {
  139. "Description": "associated_frame: closest world video frame"
  140. },
  141. "gaze_norm_pos_x": {
  142. "Description": "x position in the world image frame in normalized coordinates"
  143. },
  144. "gaze_norm_pos_y": {
  145. "Description": "y position in the world image frame in normalized coordinates"
  146. },
  147. "gaze_base_data": {
  148. "Description": "timestamp-id timestamp-id ... of pupil data that this gaze position is computed from"
  149. },
  150. "gaze_point_3d_x": {
  151. "Description": "x position of the 3d gaze point (the point the sublejct lookes at) in the world camera coordinate system"
  152. },
  153. "gaze_point_3d_y": {
  154. "Description": "y position of the 3d gaze point"
  155. },
  156. "gaze_point_3d_z": {
  157. "Description": "z position of the 3d gaze point"
  158. },
  159. "gaze_eye_center0_3d_x": {
  160. "Description": "x center of eye-ball 0 in the world camera coordinate system (of camera 0 for binocular systems or any eye camera for monocular system)"
  161. },
  162. "gaze_eye_center0_3d_y": {
  163. "Description": "y center of eye-ball 0"
  164. },
  165. "gaze_eye_center0_3d_z": {
  166. "Description": "z center of eye-ball 0"
  167. },
  168. "gaze_normal0_x": {
  169. "Description": "x normal of the visual axis for eye 0 in the world camera coordinate system (of eye 0 for binocular systems or any eye for monocular system). The visual axis goes through the eye ball center and the object thats looked at."
  170. },
  171. "gaze_normal0_y": {
  172. "Description": "y normal of the visual axis for eye 0"
  173. },
  174. "gaze_normal0_z": {
  175. "Description": "z normal of the visual axis for eye 0"
  176. },
  177. "gaze_eye_center1_3d_x": {
  178. "Description": "x center of eye-ball 1 in the world camera coordinate system (not avaible for monocular setups.)"
  179. },
  180. "gaze_eye_center1_3d_y": {
  181. "Description": "y center of eye-ball 1"
  182. },
  183. "gaze_eye_center1_3d_z": {
  184. "Description": "z center of eye-ball 1"
  185. },
  186. "gaze_normal1_x": {
  187. "Description": "x normal of the visual axis for eye 1 in the world camera coordinate system (not avaible for monocular setups.). The visual axis goes through the eye ball center and the object thats looked at."
  188. },
  189. "gaze_normal1_y": {
  190. "Description": "y normal of the visual axis for eye 1"
  191. },
  192. "gaze_normal1_z": {
  193. "Description": "z normal of the visual axis for eye 1"
  194. }
  195. }