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Gaze-contingency paradigm

January 01, 1970

Within computer technology, the gaze-contingency paradigm is a general term for techniques allowing a computer screen display to change in function depending on where the viewer is looking. Gaze-contingent techniques are part of the eye movement field of study in psychology.

From a system analysis point of view, eye-tracking applications should be distinguished from diagnostic or interactive system. In diagnostic mode, the eye tracker provides data about the observer’s visual search and attention processes. In interactive mode, the eye-tracker is used as an input device. From a general point of view, an interactive system responds to the observer’s actions and interacts with them. Because the display updates in response to the observer's eye movements, the gaze-contingency paradigm can be classified an interactive eye-tracking application.[1]

Background edit

Over the past century, the way the eyes move in human activities as diverse as playing sport, viewing works of art, piloting aircraft, exploring visual scenes, recognizing face or facial expressions,[2][3] reading language, and sight-reading of music,[4] has revealed some of the ocular and psychological mechanisms involved in the visual system. The gaze-contingent techniques aim to overcome limitations inherent to simple eye-movement recording. Indeed, due to an imperfect coupling between overt and covert attention,[5][6][7] it is not possible to exactly know which visual information the viewer is processing based on the fixation locations. By controlling precisely the information projected in different parts of the visual field, the gaze-contingent techniques permit to disentangle what is fixated and what is processed.

The technical principle of the paradigm involves a computer interfaced with both an eye-movement tracking system (eye-tracker) and a display of the visual stimulus. Successful gaze-contingency requires a fast computer, a display with a high refresh rate, and an eye tracker with low latency.[8][9] In gaze-contingent displays, the stimulus is continuously updated as a function of the observers' current gaze position; for instance, in the moving window paradigm,[10][11][12] observers can see the scene only through a central hole, giving the sensation of seeing through a telescope.

Therefore, the gaze-contingent technique is a powerful method to control for the visual information feeding the visual system and to isolate information use.

Techniques edit

The gaze-contingent technique is the basis of various experimental paradigms, each of them allowing to investigate specific cognitive processes. In the moving window paradigm[13][14] only the part of the visual field around the gaze location (foveal information) is displayed normally, the surrounding part of the visual field (extrafoveal and peripheral information) being altered (removed for visual scenes or replaced by chains of X in reading). The moving mask paradigm[15] is a reverse technique in comparison with the moving window paradigm. It dynamically obscures central vision (or replaces letters with X in reading), permitting only extrafoveal information use. In the boundary paradigm,[16][17][18] an extrafoveal prime (a homophone in reading for example) is replaced by the target stimulus when the eyes cross an invisible boundary around the target area. In a related technique, the display can be updated when the gaze moves at a speed higher than a specified velocity threshold, ensuring that the display updates during a saccade.[19][20] This velocity thresholding technique is used to prevent the observer from noticing the changes made to the display, because saccadic suppression blocks visual processing during saccades.[21] The parafoveal magnification paradigm[22] compensates for how visual acuity drops off as a function of retinal eccentricity. On each fixation and in real time, parafoveal text is magnified to equalize its perceptual impact with that of concurrent foveal text.

 
Parafoveal magnification paradigm: Graphical depiction of the parafoveal magnification paradigm (Miellet et al., 2009). The location of each fixation is indicated with an arrow and the corresponding display for that fixation is represented. Consecutive lines represent the chronological order of fixations.

In the language domain, this method has been successfully used in natural reading. The study of eye movements in reading allowed researchers to map out the perceptual span (moving window paradigm[23][24]), the nature of the extrafoveal information extracted during a fixation, for instance orthographic and phonological information (boundary paradigm)[25][26][27] or the relative influence of attention versus visual acuity drop-off in the perceptual span (parafoveal magnification paradigm[28]).

Gaze-contingent techniques can also be used to ensure compliance with other aspects of a task. For example, some researchers have required that observers look at a specific location and press a button before the task begins,[29][30] and others have made the entire task display disappear whenever the observers look away from a specific task-relevant area.[31]

Applications edit

The gaze-contingent technique has been adapted in other tasks than reading. The moving window paradigm has been used to study the effect of culture in face recognition for example.[32] The moving mask paradigm has been used in visual learning [33] or visual search of animals in natural visual scenes.[34]

The various gaze-contingent techniques has given eye-movement researchers the ability to observe the processing of visual input in much greater detail (particularly its temporal characteristics), the perceptual span, and the nature of central versus peripheral processing in reading.

See also edit

References edit

  1. ^ Duchowski, AT (2007). Eye Tracking Methodology: Theory and Practice (2nd ed.). Springer.
  2. ^ Melissa H. Black; Nigel T.M. Chen; Kartik K. Iyer; Ottmar V. Lipp; Sven Bölte; Marita Falkmer; Tele Tan; Sonya J. Girdler (2017). "Mechanisms of facial emotion recognition in autism spectrum disorders: Insights from eye tracking and electroencephalography". Neuroscience & Biobehavioral Reviews. 80: 488–515. doi:10.1016/j.neubiorev.2017.06.016. PMID 28698082.
  3. ^ Falck-Ytter, Terje; Bölte, Sven; Gredebäck, Gustaf (2013). "Eye tracking in early autism research". Journal of Neurodevelopmental Disorders. 5 (1): 28. doi:10.1186/1866-1955-5-28. PMC 3849191. PMID 24069955.
  4. ^ Pollatsek, A; Rayner, K (1990). "Eye movements, the eye–hand span, and the perceptual span in sight-reading of music". Current Directions in Psychological Science: 49–53.
  5. ^ Murthy, A.; Thompson, K. G.; Schall, J. D. (2001). "Dynamic dissociation of visual selection from saccade programming in frontal eye field". Journal of Neurophysiology. 86 (5): 2634–2637. doi:10.1152/jn.2001.86.5.2634. PMID 11698551. S2CID 653798.
  6. ^ Posner, M. I. (1980). "Orienting of attention". Quarterly Journal of Experimental Psychology. 32 (1): 3–25. doi:10.1080/00335558008248231. PMID 7367577. S2CID 2842391.
  7. ^ Klein, R; Farrell, M (1989). "Search performance without eye movements". Perception & Psychophysics. 46 (5): 476–482. doi:10.3758/BF03210863. PMID 2813033.
  8. ^ Veneri, G; Federighi, P; Rosini, F; Federico, A; Rufa, A (2010). "Influences of data filtering on human-computer interaction by gaze-contingent display and eye-tracking applications". Computers in Human Behavior. 26 (6): 1555–1563. doi:10.1016/j.chb.2010.05.030.
  9. ^ Duchowski, AT (2007). Eye Tracking Methodology: Theory and Practice (2nd ed.). Springer.
  10. ^ Pomplun, M; Reingold, E. M; Shen, J (2001). "Peripheral and parafoveal cueing and masking effects on saccadic selectivity in a gaze-contingent window paradigm". Vision Research. 41 (21): 2757–69. doi:10.1016/S0042-6989(01)00145-6. PMID 11587725. S2CID 18233786.
  11. ^ Reder, S.M. (1973). "On-line monitoring of eye position signals in contingent and noncontingent paradigms". Behavior Research Methods & Instrumentation. 5 (2): 218–28. doi:10.3758/BF03200168.
  12. ^ McConkie, G.W; Rayner, K (1975). "The span of the effective stimulus during a fixation in reading". Perception & Psychophysics. 17 (6): 578–86. doi:10.3758/BF03203972.
  13. ^ Reder, S.M. (1973). "On-line monitoring of eye position signals in contingent and noncontingent paradigms". Behavior Research Methods & Instrumentation. 5 (2): 218–28. doi:10.3758/BF03200168.
  14. ^ McConkie, G.W; Rayner, K (1975). "The span of the effective stimulus during a fixation in reading". Perception & Psychophysics. 17 (6): 578–86. doi:10.3758/BF03203972.
  15. ^ Rayner, K; Bertera, JH (1979). "Reading without a fovea". Science. 206 (4417): 468–469. Bibcode:1979Sci...206..468R. doi:10.1126/science.504987. PMID 504987.
  16. ^ Rayner, Keith (1975). "The perceptual span and peripheral cues in reading". Cognitive Psychology. 7: 65–81. doi:10.1016/0010-0285(75)90005-5. S2CID 54366006.
  17. ^ Balota, David A; Pollatsek, Alexander; Rayner, Keith (1985). "The interaction of contextual constraints and parafoveal visual information in reading". Cognitive Psychology. 17 (3): 364–390. doi:10.1016/0010-0285(85)90013-1. PMID 4053565. S2CID 8237394.
  18. ^ Miellet, Sébastien; Sparrow, Laurent (2004). "Phonological codes are assembled before word fixation: Evidence from boundary paradigm in sentence reading". Brain and Language. 90 (1–3): 299–310. CiteSeerX 10.1.1.608.3108. doi:10.1016/S0093-934X(03)00442-5. PMID 15172547. S2CID 9708305.
  19. ^ Kennedy, A; Heller, D.; Pynte, J.; Radach, Ralph (2000). Reading as a Perceptual Process (1st ed.). Elsevier. pp. 119–145. ISBN 9780080436425.
  20. ^ Alexander, R. G.; Schmidt, J.; Zelinsky, G. J. (2014). "Are summary statistics enough? Evidence for the importance of shape in guiding visual search". Visual Cognition. 22 (3–4): 595–609. doi:10.1080/13506285.2014.890989. PMC 4500174. PMID 26180505.
  21. ^ Bridgeman, G.; Hendry, D.; Stark, L. (1975). "Failure to detect displacement of visual world during saccadic eye movements". Vision Research. 15 (6): 719–722. doi:10.1016/0042-6989(75)90290-4. PMID 1138489. S2CID 11541038.
  22. ^ Miellet, S; O'Donnell, PJ; Sereno, SC (2009). "Parafoveal Magnification: Visual Acuity Does Not Modulate the Perceptual Span in Reading". Psychological Science. 20 (6): 721–728. doi:10.1111/j.1467-9280.2009.02364.x. PMID 19470124. S2CID 8476978.
  23. ^ Reder, S.M. (1973). "On-line monitoring of eye position signals in contingent and noncontingent paradigms". Behavior Research Methods & Instrumentation. 5 (2): 218–28. doi:10.3758/BF03200168.
  24. ^ McConkie, G.W; Rayner, K (1975). "The span of the effective stimulus during a fixation in reading". Perception & Psychophysics. 17 (6): 578–86. doi:10.3758/BF03203972.
  25. ^ Rayner, Keith (1975). "The perceptual span and peripheral cues in reading". Cognitive Psychology. 7: 65–81. doi:10.1016/0010-0285(75)90005-5. S2CID 54366006.
  26. ^ Balota, David A; Pollatsek, Alexander; Rayner, Keith (1985). "The interaction of contextual constraints and parafoveal visual information in reading". Cognitive Psychology. 17 (3): 364–390. doi:10.1016/0010-0285(85)90013-1. PMID 4053565. S2CID 8237394.
  27. ^ Miellet, Sébastien; Sparrow, Laurent (2004). "Phonological codes are assembled before word fixation: Evidence from boundary paradigm in sentence reading". Brain and Language. 90 (1–3): 299–310. CiteSeerX 10.1.1.608.3108. doi:10.1016/S0093-934X(03)00442-5. PMID 15172547. S2CID 9708305.
  28. ^ Miellet, S; O'Donnell, PJ; Sereno, SC (2009). "Parafoveal Magnification: Visual Acuity Does Not Modulate the Perceptual Span in Reading". Psychological Science. 20 (6): 721–728. doi:10.1111/j.1467-9280.2009.02364.x. PMID 19470124. S2CID 8476978.
  29. ^ Alexander, R. G; Zelinsky, G. J (2011). "Visual similarity effects in categorical search". Journal of Vision. 11 (8): 9. doi:10.1167/11.8.9. PMC 8409006. PMID 21757505.
  30. ^ Arizpe, Joseph; Kravitz, Dwight J; Walsh, Vincent; Yovel, Galit; Baker, Chris I (2016). "Differences in Looking at Own- and Other-Race Faces Are Subtle and Analysis-Dependent: An Account of Discrepant Reports". PLOS ONE. 11 (2): e0148253. Bibcode:2016PLoSO..1148253A. doi:10.1371/journal.pone.0148253. PMC 4744017. PMID 26849447.
  31. ^ Wilcockson, T.D.W; Pothos, E.M (2015). "Measuring inhibitory processes for alcohol-related attentional biases: Introducing a novel attentional bias measure" (PDF). Addictive Behaviors. 44: 88–93. doi:10.1016/j.addbeh.2014.12.015. PMID 25583563.
  32. ^ Caldara, Roberto; Zhou, Xinyue; Miellet, Sébastien (2010). "Putting Culture Under the 'Spotlight' Reveals Universal Information Use for Face Recognition". PLOS ONE. 5 (3): e9708. Bibcode:2010PLoSO...5.9708C. doi:10.1371/journal.pone.0009708. PMC 2841167. PMID 20305776.
  33. ^ Castelhano, Monica S; Henderson, John M (2008). "Stable individual differences across images in human saccadic eye movements". Canadian Journal of Experimental Psychology. 62 (1): 1–14. doi:10.1037/1196-1961.62.1.1. PMID 18473624. S2CID 915709.
  34. ^ Miellet, S; Zhou, X; He, L; Rodger, H; Caldara, R (2010). "Investigating cultural diversity for extrafoveal information use in visual scenes". Journal of Vision. 10 (6): 21. doi:10.1167/10.6.21. PMID 20884570.

January 01, 1970
gaze, contingency, paradigm, within, computer, technology, gaze, contingency, paradigm, general, term, techniques, allowing, computer, screen, display, change, function, depending, where, viewer, looking, gaze, contingent, techniques, part, movement, field, st. Within computer technology the gaze contingency paradigm is a general term for techniques allowing a computer screen display to change in function depending on where the viewer is looking Gaze contingent techniques are part of the eye movement field of study in psychology From a system analysis point of view eye tracking applications should be distinguished from diagnostic or interactive system In diagnostic mode the eye tracker provides data about the observer s visual search and attention processes In interactive mode the eye tracker is used as an input device From a general point of view an interactive system responds to the observer s actions and interacts with them Because the display updates in response to the observer s eye movements the gaze contingency paradigm can be classified an interactive eye tracking application 1 Contents 1 Background 2 Techniques 3 Applications 4 See also 5 ReferencesBackground editOver the past century the way the eyes move in human activities as diverse as playing sport viewing works of art piloting aircraft exploring visual scenes recognizing face or facial expressions 2 3 reading language and sight reading of music 4 has revealed some of the ocular and psychological mechanisms involved in the visual system The gaze contingent techniques aim to overcome limitations inherent to simple eye movement recording Indeed due to an imperfect coupling between overt and covert attention 5 6 7 it is not possible to exactly know which visual information the viewer is processing based on the fixation locations By controlling precisely the information projected in different parts of the visual field the gaze contingent techniques permit to disentangle what is fixated and what is processed The technical principle of the paradigm involves a computer interfaced with both an eye movement tracking system eye tracker and a display of the visual stimulus Successful gaze contingency requires a fast computer a display with a high refresh rate and an eye tracker with low latency 8 9 In gaze contingent displays the stimulus is continuously updated as a function of the observers current gaze position for instance in the moving window paradigm 10 11 12 observers can see the scene only through a central hole giving the sensation of seeing through a telescope Therefore the gaze contingent technique is a powerful method to control for the visual information feeding the visual system and to isolate information use Techniques editThe gaze contingent technique is the basis of various experimental paradigms each of them allowing to investigate specific cognitive processes In the moving window paradigm 13 14 only the part of the visual field around the gaze location foveal information is displayed normally the surrounding part of the visual field extrafoveal and peripheral information being altered removed for visual scenes or replaced by chains of X in reading The moving mask paradigm 15 is a reverse technique in comparison with the moving window paradigm It dynamically obscures central vision or replaces letters with X in reading permitting only extrafoveal information use In the boundary paradigm 16 17 18 an extrafoveal prime a homophone in reading for example is replaced by the target stimulus when the eyes cross an invisible boundary around the target area In a related technique the display can be updated when the gaze moves at a speed higher than a specified velocity threshold ensuring that the display updates during a saccade 19 20 This velocity thresholding technique is used to prevent the observer from noticing the changes made to the display because saccadic suppression blocks visual processing during saccades 21 The parafoveal magnification paradigm 22 compensates for how visual acuity drops off as a function of retinal eccentricity On each fixation and in real time parafoveal text is magnified to equalize its perceptual impact with that of concurrent foveal text nbsp Parafoveal magnification paradigm Graphical depiction of the parafoveal magnification paradigm Miellet et al 2009 The location of each fixation is indicated with an arrow and the corresponding display for that fixation is represented Consecutive lines represent the chronological order of fixations In the language domain this method has been successfully used in natural reading The study of eye movements in reading allowed researchers to map out the perceptual span moving window paradigm 23 24 the nature of the extrafoveal information extracted during a fixation for instance orthographic and phonological information boundary paradigm 25 26 27 or the relative influence of attention versus visual acuity drop off in the perceptual span parafoveal magnification paradigm 28 Gaze contingent techniques can also be used to ensure compliance with other aspects of a task For example some researchers have required that observers look at a specific location and press a button before the task begins 29 30 and others have made the entire task display disappear whenever the observers look away from a specific task relevant area 31 Applications editThe gaze contingent technique has been adapted in other tasks than reading The moving window paradigm has been used to study the effect of culture in face recognition for example 32 The moving mask paradigm has been used in visual learning 33 or visual search of animals in natural visual scenes 34 The various gaze contingent techniques has given eye movement researchers the ability to observe the processing of visual input in much greater detail particularly its temporal characteristics the perceptual span and the nature of central versus peripheral processing in reading See also editEye movement Eye tracking Eye movement in language reading Eye movement in music reading Foveated imaging AttentionReferences edit Duchowski AT 2007 Eye Tracking Methodology Theory and Practice 2nd ed Springer Melissa H Black Nigel T M Chen Kartik K Iyer Ottmar V Lipp Sven Bolte Marita Falkmer Tele Tan Sonya J Girdler 2017 Mechanisms of facial emotion recognition in autism spectrum disorders Insights from eye tracking and electroencephalography Neuroscience amp Biobehavioral Reviews 80 488 515 doi 10 1016 j neubiorev 2017 06 016 PMID 28698082 Falck Ytter Terje Bolte Sven Gredeback Gustaf 2013 Eye tracking in early autism research Journal of Neurodevelopmental Disorders 5 1 28 doi 10 1186 1866 1955 5 28 PMC 3849191 PMID 24069955 Pollatsek A Rayner K 1990 Eye movements the eye hand span and the perceptual span in sight reading of music Current Directions in Psychological Science 49 53 Murthy A Thompson K G Schall J D 2001 Dynamic dissociation of visual selection from saccade programming in frontal eye field Journal of Neurophysiology 86 5 2634 2637 doi 10 1152 jn 2001 86 5 2634 PMID 11698551 S2CID 653798 Posner M I 1980 Orienting of attention Quarterly Journal of Experimental Psychology 32 1 3 25 doi 10 1080 00335558008248231 PMID 7367577 S2CID 2842391 Klein R Farrell M 1989 Search performance without eye movements Perception amp Psychophysics 46 5 476 482 doi 10 3758 BF03210863 PMID 2813033 Veneri G Federighi P Rosini F Federico A Rufa A 2010 Influences of data filtering on human computer interaction by gaze contingent display and eye tracking applications Computers in Human Behavior 26 6 1555 1563 doi 10 1016 j chb 2010 05 030 Duchowski AT 2007 Eye Tracking Methodology Theory and Practice 2nd ed Springer Pomplun M Reingold E M Shen J 2001 Peripheral and parafoveal cueing and masking effects on saccadic selectivity in a gaze contingent window paradigm Vision Research 41 21 2757 69 doi 10 1016 S0042 6989 01 00145 6 PMID 11587725 S2CID 18233786 Reder S M 1973 On line monitoring of eye position signals in contingent and noncontingent paradigms Behavior Research Methods amp Instrumentation 5 2 218 28 doi 10 3758 BF03200168 McConkie G W Rayner K 1975 The span of the effective stimulus during a fixation in reading Perception amp Psychophysics 17 6 578 86 doi 10 3758 BF03203972 Reder S M 1973 On line monitoring of eye position signals in contingent and noncontingent paradigms Behavior Research Methods amp Instrumentation 5 2 218 28 doi 10 3758 BF03200168 McConkie G W Rayner K 1975 The span of the effective stimulus during a fixation in reading Perception amp Psychophysics 17 6 578 86 doi 10 3758 BF03203972 Rayner K Bertera JH 1979 Reading without a fovea Science 206 4417 468 469 Bibcode 1979Sci 206 468R doi 10 1126 science 504987 PMID 504987 Rayner Keith 1975 The perceptual span and peripheral cues in reading Cognitive Psychology 7 65 81 doi 10 1016 0010 0285 75 90005 5 S2CID 54366006 Balota David A Pollatsek Alexander Rayner Keith 1985 The interaction of contextual constraints and parafoveal visual information in reading Cognitive Psychology 17 3 364 390 doi 10 1016 0010 0285 85 90013 1 PMID 4053565 S2CID 8237394 Miellet Sebastien Sparrow Laurent 2004 Phonological codes are assembled before word fixation Evidence from boundary paradigm in sentence reading Brain and Language 90 1 3 299 310 CiteSeerX 10 1 1 608 3108 doi 10 1016 S0093 934X 03 00442 5 PMID 15172547 S2CID 9708305 Kennedy A Heller D Pynte J Radach Ralph 2000 Reading as a Perceptual Process 1st ed Elsevier pp 119 145 ISBN 9780080436425 Alexander R G Schmidt J Zelinsky G J 2014 Are summary statistics enough Evidence for the importance of shape in guiding visual search Visual Cognition 22 3 4 595 609 doi 10 1080 13506285 2014 890989 PMC 4500174 PMID 26180505 Bridgeman G Hendry D Stark L 1975 Failure to detect displacement of visual world during saccadic eye movements Vision Research 15 6 719 722 doi 10 1016 0042 6989 75 90290 4 PMID 1138489 S2CID 11541038 Miellet S O Donnell PJ Sereno SC 2009 Parafoveal Magnification Visual Acuity Does Not Modulate the Perceptual Span in Reading Psychological Science 20 6 721 728 doi 10 1111 j 1467 9280 2009 02364 x PMID 19470124 S2CID 8476978 Reder S M 1973 On line monitoring of eye position signals in contingent and noncontingent paradigms Behavior Research Methods amp Instrumentation 5 2 218 28 doi 10 3758 BF03200168 McConkie G W Rayner K 1975 The span of the effective stimulus during a fixation in reading Perception amp Psychophysics 17 6 578 86 doi 10 3758 BF03203972 Rayner Keith 1975 The perceptual span and peripheral cues in reading Cognitive Psychology 7 65 81 doi 10 1016 0010 0285 75 90005 5 S2CID 54366006 Balota David A Pollatsek Alexander Rayner Keith 1985 The interaction of contextual constraints and parafoveal visual information in reading Cognitive Psychology 17 3 364 390 doi 10 1016 0010 0285 85 90013 1 PMID 4053565 S2CID 8237394 Miellet Sebastien Sparrow Laurent 2004 Phonological codes are assembled before word fixation Evidence from boundary paradigm in sentence reading Brain and Language 90 1 3 299 310 CiteSeerX 10 1 1 608 3108 doi 10 1016 S0093 934X 03 00442 5 PMID 15172547 S2CID 9708305 Miellet S O Donnell PJ Sereno SC 2009 Parafoveal Magnification Visual Acuity Does Not Modulate the Perceptual Span in Reading Psychological Science 20 6 721 728 doi 10 1111 j 1467 9280 2009 02364 x PMID 19470124 S2CID 8476978 Alexander R G Zelinsky G J 2011 Visual similarity effects in categorical search Journal of Vision 11 8 9 doi 10 1167 11 8 9 PMC 8409006 PMID 21757505 Arizpe Joseph Kravitz Dwight J Walsh Vincent Yovel Galit Baker Chris I 2016 Differences in Looking at Own and Other Race Faces Are Subtle and Analysis Dependent An Account of Discrepant Reports PLOS ONE 11 2 e0148253 Bibcode 2016PLoSO 1148253A doi 10 1371 journal pone 0148253 PMC 4744017 PMID 26849447 Wilcockson T D W Pothos E M 2015 Measuring inhibitory processes for alcohol related attentional biases Introducing a novel attentional bias measure PDF Addictive Behaviors 44 88 93 doi 10 1016 j addbeh 2014 12 015 PMID 25583563 Caldara Roberto Zhou Xinyue Miellet Sebastien 2010 Putting Culture Under the Spotlight Reveals Universal Information Use for Face Recognition PLOS ONE 5 3 e9708 Bibcode 2010PLoSO 5 9708C doi 10 1371 journal pone 0009708 PMC 2841167 PMID 20305776 Castelhano Monica S Henderson John M 2008 Stable individual differences across images in human saccadic eye movements Canadian Journal of Experimental Psychology 62 1 1 14 doi 10 1037 1196 1961 62 1 1 PMID 18473624 S2CID 915709 Miellet S Zhou X He L Rodger H Caldara R 2010 Investigating cultural diversity for extrafoveal information use in visual scenes Journal of Vision 10 6 21 doi 10 1167 10 6 21 PMID 20884570 Retrieved from https en wikipedia org w index php title Gaze contingency paradigm amp oldid 1217414858, wikipedia, wiki, book, books, library,

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