首页 产品中心 解决方案 新闻中心 关于我们 联系我们

认知研究

  视觉搜索

  Alexander, R. G., & Zelinsky, G. J. (2011). Visual similarity effects in categorical search. Journal of Vision, 11(8):9, 1-15, http://www.journalofvision.org/content/11/8/9, doi:10.1167/11.8.9.

  Alexander, R. G., & Zelinsky, G. J. (2012). Effects of part-based similarity on visual search: The Frankenbear experiment. Vision Research, 54, 20-30.

  Anderson, E. J., Mannan, S. K., Husain, M., Rees, G., Sumner, P., Mort, D. J., McRobbie, D., & Kennard, C. (2007). Involvement of prefrontal cortex in visual search. Experimental Brain Research, 180, 289-302.

  Anderson, E. J., Mannan, S. K., Rees, G., Sumner, P., & Kennard, C. (2008). A role for spatial and nonspatial working memory processes in visual search. Experimental Psychology, 5, 301-312.

  Anderson, E. J., Mannan, S. K., Rees, G., Sumner, P., & Kennard, C. (2010). Overlapping functional anatomy for working memory and visual search. Experimental Brain Research, 200, 91-107.

  Beck, M. R., Lohrenz, M. C., & Trafton, J. G. (2010). Measuring search efficiency in complex visual search tasks: Global and local clutter. Journal of Experimental Psychology: Applied, 16, 238-250.

  Beck, M. R., Peterson, M. S., Vomela, M. (2006). Memory for where, but not what, is used during visual search. Journal of Experimental Psychology: Human Perception & Performance, 32, 235-250.

  Beck, M. R., Peterson, M. S., Boot, W. R., Vomela, M., & Kramer, A. F. (2006). Explicit memory for rejected distractors during visual search. Visual Cognition, 14, 150-174.

  Becker, S. I. (2011). Determinants of dwell time in visual search: Similarity or perceptual difficulty? PLoS ONE 6(3): e17740. doi:10.1371/journal.pone.001774.

  Becker, S. I., Horstmann, G., & Remington, R. W. (2011). Perceptual grouping, not emotion, accounts for search asymmetries with schematic faces. Journal of Experimental Psychology: Human Perception and Performance, 37, 1739-1757.

  Beintema, J. A., van Loon, E. M., & van den Berg, A. V. (2005). Manipulating saccadic decision-rate distributions in visual search. Journal of Vision, 5, 150-164.

  Bekkering, H., & Neggers, S. F. W. (2002). Visual search is modulated by action intentions. Psychological Science, 13, 370-374.

  Belke, E., Humphreys, G. W., Watson, D. G., Meyer, A. S., & Telling, A. L. (2008). Top-down effects of semantic knowledge in visual search are modulated by cognitive but not perceptual load. Perception & Psychophysics. 70, 1444-1458.

  Benjamins, J. S., Hooge, I. T. C., van Elst, J. C., Wertheim, A. H., & Verstraten, F. A. J. (2009). Search time critically depends on irrelevant subset size in visual search. Vision Research, 49, 398-406.

  Boot, W. R., Becic, E., & Kramer, A. F. (2009). Stable individual differences in search strategy?: The effect of task demands and motivational factors on scanning strategy in visual search. Journal of Vision, 9(3):7, 1-16, http://journalofvision.org/9/3/7/, doi:10.1167/9.3.7.

  Boot, W. R., & Brockmole, J. R. (2010). Irrelevant features at fixation modulate saccadic latency and direction in visual search. Visual Cognition, 18, 481-491.

  Boot, W. R., Neider, M. B., & Kramer, A. F. (2009). Training and transfer of training in the search for camouflaged targets. Attention, Perception, & Psychophysics, 71, 950-963.

  Bricolo, E., Gianesini, T., Fanini, A., Bundesen, C., & Chelazzi, L. (2002) Serial attention mechanisms in visual search: A direct behavioral demonstration. Journal of Cognitive Neuroscience, 14, 980-993.

  Calvo, M. G., Nummenmaa, L., & Avero, P. (2008). Visual search of emotional faces: Eye-movement assessment of component processes. Experimental Psychology, 55, 359-370.

  Calvo, M. G., & Nummenmaa, L. (2008). Detection of emotional faces: Salient physical features guide effective visual search. Journal of Experimental Psychology: General, 137, 471-494.

  Caspi, A., Beutter, B. R., & Eckstein, M. P. (2004). The time course of visual information accrual guiding eye movement decisions. Proceeding of National Academy of Sciences of the USA, 101, 13086-13090.

  Castelhano, M. S., Pollatsek, A., & Cave, K. R. (2008). Typicality aids search for an unspecified target, but only in identification and not in attentional guidance. Psychonomic Bulletin & Review, 15, 795-801.

  Cassavaugh, N. D., Kramer, A. F., & Irwin, D. E. (2003). Influence of task-irrelevant onset distractors on the visual search performance of young and old adults. Aging, Neuropsychology, and Cognition, 10, 44 – 60.

  Chen, X., & Zelinsky, G. J. (2006). Real-world visual search is dominated by top-down guidance. Vision Research, 46, 4118-4133.

  Coeckelbergh, T. R. M., Cornelissen, F. W., Brouwer, W. H., & Kooijman, A. C. (2002). The effect of visual field defects on eye movements and practical fitness to drive. Vision Research, 42, 669-677.

  de Vries, J. P., Hooge, I. T. C., Wiering, M. A., & Verstraten, F. A. J. (2011). Saccadic selection and crowding in visual search: stronger lateral masking leads to shorter search times. Experimental Brain Research, 211, 119-131.

  Devue, C., Belopolsky, A. V., & Theeuwes, J. (2012). Oculomotor guidance and capture by irrelevant faces. PLoS ONE 7(4): e34598. doi:10.1371/journal.pone.0034598.

  Devue, C., Van der Stigchel, S., Brédart, S., & Theeuwes, J. (2009). You do not find your own face faster; you just look at it longer. Cognition, 111, 114-122.

  Dickinson, C. A., & Zelinsky, G. J. (2007). Memory for the search path: Evidence for a high-capacity representation of search history. Vision Research, 47, 1745-1755.

  Donk, M. & van Zoest, W. (2008). Effects of saliency are short-lived. Psychological Science, 19, 733-739.

  Donk, M., & van Zoest, W. (2011). No control in orientation search: The effects of instruction on oculomotor selection in visual search. Vision Research, 51, 2156-2166.

  Drew, T., Cunningham, C., & Wolfe, J. M. (2012). When and why might a computer-aided detection (CAD) system interfere with visual search? An eye-tracking study. Academic Radiology, 19, 1260-1267.

  Durgin, F. H., Doyle, E., & Egan, L. (2008). Upper-left gaze bias reveals competing search strategies in a reverse Stroop task. Acta Psychologica, 127, 428-448.

  Eckstein, M. P., Beutter, B. R., Pham, B. T., Shimozaki, S. S., & Stone, L. S. (2007). Similar neural representations of the target for saccades and perception during search. The Journal of Neuroscience, 27, 1266-1270.

  Emerich, S. M., Ruppel, J. D. N., Al-Aidroos, N., Pratt, J., & Ferber, S. (2008). Out with the old: Inhibition of old items in a preview search is limited. Perception & Psychophysics, 70, 1552 – 1557.

  Forti, S., & Humphreys, G. W. (2008). Sensitivity to object viewpoint and action instructions during search for targets in the lower visual field. Psychological Science, 19, 42-48.

  Foulsham, T., & Underwood, G. (2009). Does conspicuity enhance distraction? Saliency and eye landing position when searching for objects. The Quarterly Journal of Experimental Psychology, 62, 1088-1098.

  Franconeri, S. L., Simons, D. J., & Junge, J. A. (2004). Searching for stimulus-driven shifts of attention. Psychonomic Bulletin & Review, 11, 876-881.

  Galpin, A. J., & Underwood, G. (2005). Eye movements during search and detection in comparative visual search. Perception & Psychophysics, 67, 1313-1331.

  Garaas, T. W., & Pomplun, M. (2008). Inspection time and visual-perceptual processing. Vision Research, 48, 523-537

  Geyer, T., Von Mühlenen, A., & Müller, H. J. (2007). What do eye movements reveal about the role of memory in visual search? The Quarterly Journal of Experimental Psychology, 7, 924-935.

  Gilchrist, I. D., & Harvey, M. (2000). Refixation frequency and memory mechanisms in visual search. Current Biology, 10, 1209-1212.

  Gilchrist, I. D., & Harvey, M. (2006). Evidence for a systematic component within scan paths in visual search. Visual Cognition, 14, 704-715.

  Greene, H. H. (2006). The control of fixation duration in visual search. Perception, 35, 303-315.

  Greene, H. H. (2008). Distance-from-target dynamics during visual search. Vision Research, 48, 2476-2484.

  Greene, H. H., Brown, J. M., & Paradis, B. A. (2013). Luminance contrast and the visual span during visual target localization. Displays, 34, 27-32.

  Greene, H. H., Pollatsek, A., Masserang, K., Lee, Y. J., & Rayner, K. (2010). Directional processing within the perceptual span during visual target localization. Vision Research, 50, 1274-1282.

  Greene, H. H., & Rayner, K. (2001). Eye movement control in direction-coded visual search. Perception, 30, 147-157.

  Greene, H. H., Simpson, D., & Bennion, J. (2012). The perceptual span during foveally-demanding visual target localization. Acta Psychologica, 139, 434-439.

  Grewal, P., Viswanathan, J., Barton, J. J. S., & Lanyon, L. J. (2012). Line bisection under an attentional gradient induced by simulated neglect in healthy subjects. Neuropsychologia, 50, 1190-1201.

  Hannus, A., Neggers, S., Cornelissen, F.W., & Bekkering, H. (2005). Selection-for-action in visual search. Acta Psychologica, 118, 171-191.

  Hannus, A., van den Berg, R., Bekkering, H., Roerdink, J. B. T. M., & Cornelissen, F. W. (2006). Visual search near threshold: Some features are more equal than others. Journal of Vision, 6, 523-540.

  He, J., & McCarley, J. S. (2010). Executive working memory load does not compromise perceptual processing during visual search: Evidence from additive factors analysis. Attention, Perception, & Psychophysics, 72, 308-316.

  Henderson, J. M., Chanceaux, M., & Smith, T. J. (2009). The influence of clutter on real-world scene search: Evidence from search efficiency and eye movements. Journal of Vision, 9(1):32, 1-8, http://journalofvision.org/9/1/32/, doi:10.1167/9.1.32.

  Hout, M. C., & Goldinger, S. D. (2012). Incidental learning speeds visual search by lowering response thresholds, not by improving efficiency: Evidence from eye movements. Journal of Experimental Psychology: Human Perception and Performance, 38, 90-112.

  Houtkamp, R., & Roelfsema, P. R. (2006). The effect of items in working memory on the deployment of attention and the eyes during visual search. Journal of Experimental Psychology: Human Perception and Performance, 32, 423-442.

  Huestegge, L. (2010). Effects of vowel length on gaze durations in silent and oral reading. Journal of Eye Movement Research, 3(5):5,1-18.

  Hwang, A. D., Higgins, E. C., & Pomplun, M. (2009). A model of top-down attentional control during visual search in complex scenes. Journal of Vision, 9(5):25, 1-18, http://journalofvision.org/9/5/25/, doi:10.1167/9.5.25.

  Hwang, A. D., Wang, H.-C., & Pomplun, M. (2011). Semantic guidance of eye movements in real-world scenes. Vision Research, 51, 1192-1205.

  Iordanescu, L., Grabowecky, M., Franconeri, S., Theeuwes, J., & Suzuki, S. (2010). Characteristic sounds make you look at the targets faster in visual search. Attention Perception & Psychophysics, 72, 1736-1741.

  Jacob, M. & Hochstein, S. (2009). Comparing eye movements to detected vs. undetected target stimuli in an Identity Search task. Journal of Vision, 9(5):20, 1-16, http://journalofvision.org/9/5/20/, doi:10.1167/9.5.20.

  Jones, J. L., & Kaschak, M. P. (2012). Global statistical learning in a visual search task. Journal of Experimental Psychology: Human Perception and Performance, 38, 152-160.

  Klein, R. M., & MacInnes, W. J. (1999). Inhibition of return is a foraging facilitator in visual search. Psychological Science, 10, 346-352.

  Körner, C., & Gilchrist, I. D. (2008). Memory processes in multiple-target visual search. Psychological Research, 72, 99-105.

  Kotowicz, A., Rutishauser, U., & Koch, C. (2010). Time course of target recognition in visual search. Frontiers in Human Neuroscience, 4:31. doi:10.3389/fnhum.2010.00031.

  Kramer, A. F., Boot, W. R., McCarley, J. S., Peterson, M. S., Colcombe, A., & Scialfa, C. T. (2006). Aging, memory and visual search. Acta Psychologica, 122, 288-304.

  Kramer, A. F., Cassavaugh, N., Irwin, D. E., Peterson, M. S., & Hahn, S. (2001). Influence of single and multiple onset distractors on visual search for singleton targets. Perception & Psychophysics, 63, 952-968.

  Kramer, A. F., Hahn, S., Irwin, D. E., & Theeuwes, J. (1999). Attentional capture and aging: Implications for visual search performance and oculomotor control. Psychology & Aging, 14, 135-154.

  Kuhn, G., & Tipples, J. (2011). Increased gaze following for fearful faces. It depends on what you’re looking for! Psychonomic Bulletin & Review, 18, 89-95.

  Le Dantec, C. C., Melton, E. E., & Seitz, A. R. (2012). A triple dissociation between learning of target, distractors, and spatial contexts. Journal of Vision, 12(2):5, 1-12, http://www.journalofvision.org/content/12/2/5, doi:10.1167/12.2.5.

  Le Dantec, C. C., & Seitz, A. R. (2012). High resolution, high capacity, spatial specificity in perceptual learning. Frontiers in Psychology, 3:222. doi: 10.3389/fpsyg.2012.00222.

  Leonard, C. J., & Luck, S. J. (2011). The role of magnocellular signals in oculomotor attentional capture. Journal of Vision, 11(13):11, 1-12, http://www.journalofvision.org/content/11/13/11, doi:10.1167/11.13.11.

  Meyer, A. S., Belke, E., Telling, A. L., & Humphreys, G. W. (2007). Early activation of object names in visual search. Psychonomic Bulletin & Review, 14, 710-716.

  McCarley, J. S., Kramer, A. F., Boot, W. R., Peterson, M. S., Wang, R. F. & Irwin, D. E. (2006). Oculomotor behavior in visual search for multiple targets. Visual Cognition, 14, 685-703.

  McCarley, J. S., Wang, R., Kramer, A. F., Irwin, D. E., & Peterson, M. S. (2003). How much memory does oculomotor search have? Psychological Science, 14, 422-426.

  Montfoort, I., Frens, M. A., Hooge, I. Th. C., Lagers-van Haselen, G. C., & van der Geest, J. N. (2007). Visual search deficits in Williams-Beuren syndrome. Neuropsychologia, 45, 931-938.

  Morvan, C., & Maloney, L. T. (2012). Human visual search does not maximize the post-saccadic probability of identifying targets. PLoS Computational Biology, 8(2): e1002342. doi:10.1371/journal.pcbi.1002342.

  Motter, B. C., & Simoni, D. A. (2007). The roles of cortical image separation and size in active visual search performance. Journal of Vision, 7(2):6, 1-15, http://journalofvision.org/7/2/6/, doi:10.1167/7.2.6.

  Motter, B. C., & Simoni, D. A. (2008). Changes in the functional visual field during search with and without eye movements. Vision Research, 48, 2382-2393.

  Neider, M. B., & Zelinsky, G. J. (2006). Searching for camouflaged targets: Effects of target-background similarity on visual search. Vision Research, 46, 2217-2235.

  Neider, M. B., & Zelinsky, G. J. (2006). Scene context guides eye movements during visual search. Vision Research, 46, 614-621.

  Neider, M. B., & Zelinsky, G. J. (2008). Exploring set size effects in scenes: Identifying the objects of search. Visual Cognition, 16, 1 – 10.

  Neider, M. B., & Zelinsky, G. J. (2011). Cutting through the clutter: Searching for targets in evolving complex scenes. Journal of Vision, 11(14):7, 1-16, http://www.journalofvision.org/content/11/14/7, doi:10.1167/11.14.7.

  Ojanpää, H., & Näsänen, R. (2003). Utilisation of spatial frequency information in face search. Vision Research, 43, 2505-2515.

  Ojanpää, H., Näsänen, R., & Kojo, I. (2002). Eye movements in the visual search of word lists. Vision Research, 42, 1499-1512.

  Over, E. A. B., Hooge, I. T. C., Vlaskamp, B. N. S., & Erkelens, C. J. (2007). Coarse-to-fine eye movement strategy in visual search. Vision Research, 47, 2272-2280.

  Panagopoulos, A., von Grunau, M. W., & Galera, C. (2004). Attentive mechanisms in visual search. Spatial Vision, 17, 353-371.

  Peterson, M. S., Beck, M. R., & Vomela, M. (2007). Visual search is guided by prospective and retrospective memory. Perception and Psychophysics, 69, 123 – 135.

  Peterson, M. S., Beck, M. R., & Wong, J. H. (2008). Were you paying attention to where you looked? The role of executive working memory in visual search. Psychonomic Bulletin & Review, 15, 372-377.

  Peterson, M. S., Boot, W. R., Kramer, A. F., & McCarley, J. S. (2004). Landmarks help guide attention during visual search. Spatial Vision, 17, 497-510.

  Peterson, M. S., & Kramer, A. F. (2001). Attentional guidance of the eyes by contextual information and abrupt onsets. Perception and Psychophysics, 63, 1239-1249.

  Peterson, M. S., Kramer, A. F., & Irwin, D. E. (2004). Covert shifts of attention precede involuntary eye movements. Perception and Psychophysics, 66, 398-405.

  Peterson, M. S., Kramer, A. F., Irwin, D. E. & Hahn, S. (2002). Modulation of oculomotor control by abrupt onsets during attentionally demanding visual search. Visual Cognition, 9, 755-791.

  Peterson, M. S., Kramer, A. F., Wang, F. R., Irwin, D. E., & McCarley, J. (2001). Visual search has memory. Psychological Science, 12, 287-292.

  Phillips, M. H., & Edelman, J. A. (2008). The dependence of visual scanning performance on saccade, fixation, and perceptual metrics. Vision Research, 48, 926-936.

  Palanica, A., & Itier, R. J. (2011). Searching for a perceived gaze direction using eye tracking. Journal of Vision, 11(2):19, 1-13, http://www.journalofvision.org/content/11/2/19, doi:10.1167/11.2.19.

  Pomplun, M. (2006). Saccadic selectivity in complex visual search displays. Vision Research, 46, 1886-1900.

  Pomplun, M., Reingold, E. M., & Shen, J. (2003). Area activation: A computational model of saccadic selectivity in visual search. Cognitive Science, 27, 299-312.

  Porter, G., Tales, A., & Leonards, U. (2010). What makes cast shadows hard to see? Journal of Vision, 10(3):13, 1-18, http://journalofvision.org/10/3/13/, doi:10.1167/10.3.13.

  Privitera, C. M., Renninger, L. W., Carney, T., Klein, S., & Aguilar, M. (2010). Pupil dilation during visual target detection. Journal of Vision, 10(10):3, 1-14, http://www.journalofvision.org/content/10/10/3, doi:10.1167/10.10.3.

  Rinck, M., Reinecke, A., Ellwart, T., Heuer, K., & Becker, E. S. (2005). Speeded detection and increased distraction in fear of spiders: Evidence from eye movements. Journal of Abnormal Psychology, 114, 235-248.

  Rutishauser, U., & Koch, C. (2007). Probabilistic modeling of eye movement data during conjunction search via feature-based attention. Journal of Vision, 7(6):5, 1-20, http://journalofvision.org/7/6/5/, doi:10.1167/7.6.5.

  Schmidt, J., & Zelinsky, G. J. (2009). Search guidance is proportional to the categorical specificity of a target cue. Quarterly Journal of Experimental Psychology, 62, 1904-1914.

  Schmidt, J., & Zelinsky, G. J. (2011). Visual search guidance is best after a short delay. Vision Research, 51, 535-545.

  Shen, J., Reingold, E. M., & Pomplun, M. (2000). Distractor ratio influences patterns of eye movements during visual search. Perception, 29, 241-250.

  Shen, J., Reingold, E. M., & Pomplun, M. (2003). Guidance of eye movements during conjunctive visual search: The distractor-ratio effect. Canadian Journal of Experimental Psychology, 57, 76-96.

  Shimozaki, S. S., Schoonveld, W. A., & Eckstein, M. P. (2012). A unified Bayesian observer analysis for set size and cueing effects on perceptual decisions and saccades. Journal of Vision, 12(6):27, 1-26, http://www.journalofvision.org/content/12/6/27, doi:10.1167/12.6.27.

  Sogo, H., & Takeda, Y. (2006). Effect of previously fixated locations on saccade trajectory during free visual search. Vision Research, 46, 3831-3844.

  Solman, G. J. F., Cheyne, J. A., & Smilek, D. (2011). Memory load affects visual search processes without influencing search efficiency. Vision Research, 51, 1185-1191.

  Solman, G. J. F., Cheyne, J. A., & Smilek, D. (2012). Found and missed: Failing to recognize a search target despite moving it. Cognition, 123, 100-118.

  Solman, G. J. F., & Smilek, D. (2010). Item-specific location memory in visual search. Vision Research, 50, 2430-2438.

  Solman, G. J. F., & Smilek, D. (2012). Memory benefits during visual search depend on difficulty. Journal of Cognitive Psychology, 24, 689-702.

  Smith, T. J., & Henderson, J. M. (2011). Looking back at Waldo: Oculomotor inhibition of return does not prevent return fixations. Journal of Vision, 11(1):3, 1-11, http://www.journalofvision.org/content/11/1/3, doi:10.1167/11.1.3.

  Smith, T. J., & Henderson, J. M. (2011). Does oculomotor inhibition of return influence fixation probability during scene search? Attention, Perception, & Psychophysics, 73, 2384-2398.

  Stroud, M. J., Menneer, T., Cave, K. R., Donnelly, N., & Rayner, K. (2011). Search for multiple targets of different colours: Misguided eye movements reveal a reduction of colour selectivity. Applied cognitive Psychology, 25, 971-982.

  Stroud, M. J., Menneer, T., Cave, K. R., & Donnelly, N. (2012). Using the dual-target cost to explore the nature of search target representations. Journal of Experimental Psychology: Human Perception and Performance, 38, 113-122.

  Thomas, N. W., & Pare, M. (2007). Temporal processing of saccade targets in parietal cortex area LIP during visual search. Journal of Neurophysiology, 97, 942-947.

  Trukenbrod, H. A., & Engbert, R. (2007). Oculomotor control in a sequential search task. Vision Research, 47, 2426-2443.

  Tseng, Y.-C., & Li, R. C.-S. (2004). Oculomotor correlates of context-guided learning in visual search. Perception & Psychophysics, 66, 1363-1378.

  Underwood, G., Humphrey, K., & van Loon, E. (2011). Decisions about objects in real-world scenes are influenced by visual saliency before and during their inspection. Vision Research, 51, 2031-2038.

  van Zoest, W., Donk, M., & Van der Stigchel, S. (2012) Stimulus-salience and the time-course of saccade trajectory deviations. Journal of Vision, 12(8)16, 1-13, http://www.journalofvision.org/content/12/8/16, doi:10.1167/12.8.16.

  van Zoest, W., Lleras, A., Kingstone, A., & Enns, J. T. (2007). In sight, out of mind: The role of eye movements in the rapid resumption of visual search. Perception and Psychophysics, 69, 1204-127.

  Verghese, P. (2012). Active search for multiple targets is inefficient. Vision Research, 74, 61-71.

  Vincent, B. T. (2012). How do we use the past to predict the future in oculomotor search? Vision Research, 74, 93-101.

  Vlaskamp, B. N. S., & Hooge, I. Th. C. (2006). Crowding degrades saccadic search performance. Vision Research, 46, 417-425.

  Vlaskamp, B. N. S., Over, E. A. B., & Hooge, I. Th. (2005). Saccadic search performance: The effect of element spacing. Experimental Brain Research, 167, 246-259.

  Võ, M. L.-H., & Wolfe, J. M. (2012). When does repeated search in scenes involve memory? Looking at versus looking for objects in scenes. Journal of Experimental Psychology: Human Perception and Performance, 38, 23-41.

  Walthew, C., & Gilchrist, I. D. (2006). Target location probability effects in visual search: An effect of sequential dependencies. Journal of Experimental Psychology: Human Perception & Performance, 32, 1294-1301.

  Watson, D. G., & Inglis, M. (2007). Eye movements and time-based selection: Where do the eyes go in preview search? Psychonomic Bulletin & Review, 14, 852-857.

  Watson, D. G., Maylor, E. A., & Bruce, L. A. M. (2007). The role of eye movements in subitizing and counting. Journal of Experimental Psychology: Human Perception and Performance, 33, 1389-1399.

  Watson, M. R., Brennan, A. A., Kingstone, A., & Enns, J. T. (2010). Looking versus seeing: Strategies alter eye movements during visual search. Psychonomic Bulletin & Review, 17, 543-549.

  Wertheim, A. H., Hooge, I. T. C., Krikke, K., & Johnson, A. (2006). How important is lateral masking in visual search? Experimental Brain Research, 170, 387-402.

  Wienrich, C., Hesse, U., & Müller-Plath, G. (2009). Eye movements and attention in visual feature search with graded target-distractor-similarity. Journal of Eye Movement Research, 3(1):4, 1-19.

  Williams, C. C. (2010). Not all visual memories are created equal. Visual Cognition, 18, 201-228.

  Williams, C. C., & Pollatsek, A. (2007). Searching for an O in an array of Cs: Eye movements track moment-to-moment processing in visual search. Perception & Psychophysics, 69, 372-381.

  Williams, C. C., Pollatsek, A., Cave, K. R., & Stroud, M. J. (2009). More than just finding color: Strategy in global visual search is shaped by learned target probabilities. Journal of Experimental Psychology: Human Perception and Performance, 35, 688-699.

  Williams, D. E., & Reingold, E. M. (2001). Preattentive guidance of eye movements during triple conjunction search tasks: The effects of feature discriminability and saccadic amplitude. Psychonomic Bulletin & Review, 8, 476-488.

  Williams, D. E., Reingold, E. M., Moscovitch, M., & Behrmann, M. (1997). Patterns of eye movements during parallel and serial visual search tasks. Canadian Journal of Experimental Psychology, 51, 151-164.

  Xu, Y., Higgins, E. C., Xiao, M., & Pomplun, M. (2007). Mapping the color space of saccadic selectivity in visual search. Cognitive Science, 31, 877-887.

  Yang, H., Chen, X., & Zelinsky, G. J. (2009). A new look at novelty effects: Guiding search away from old distractors. Attention, Perception, & Psychophysics, 71, 554-564.

  Yang, H., & Zelinsky, G. J. (2009). Visual search is guided to categorically defined targets. Vision Research, 49, 2095-2103.

  Zehetleitner, M., Hegenloh, M., & Müller, H. J. (2011). Visually guided pointing movements are driven by the salience map. Journal of Vision, 11(1):24, 1-18, http://www.journalofvision.org/content/11/1/24, doi:10.1167/11.1.24.

  Zelinsky, G. J. (2008). A theory of eye movements during target acquisition. Psychological Review, 115, 787-835.

  Zelinsky, G. J. (2012). TAM: Explaining off-object fixations and central fixation tendencies as effects of population averaging during search. Visual Cognition, 20, 515-545.

  Zelinsky, G. J., & Neider, M. B. (2008). An eye movement analysis of multiple object tracking in a realistic environment. Visual Cognition, 16, 553 – 566.

  Zelinsky, G. J., & Schmidt, J. (2009). An effect of referential scene constraint on search implies scene segmentation, Visual Cognition, 17, 1004-1028.

  Zhao, G., Liu, Q., Jiao, J., Zhou, P., Li, H., & Sun, H. (2012). Dual-state modulation of the contextual cueing effect: Evidence from eye movement recordings. Journal of Vision, 12(6):11, 1-13, http://www.journalofvision.org/content/12/6/11, doi:10.1167/12.6.11.

  Zou, H., Müller, H. J., & Shi, Z. (2012). Non-spatial sounds regulate eye movements and enhance visual search. Journal of Vision, 12(5):2, 1-18, http://www.journalofvision.org/content/12/5/2, doi: 10.1167/12.5.2.