Cognitive Psychology

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Visual research
Antisaccade Task / Saccadic Countermanding
Attention
Perception (Scene/Face Perception/Illusion)
Memory and Cognition
Motion Perception
Eye-Hand Coordination / Pointing

Visual Search

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., 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.

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., 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.

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.

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

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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

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.

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.

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.

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.

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., & 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.

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

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.

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Antisaccade Task / Saccadic Countermanding

Amlôt, R., & Walker, R. (2006) Are somatosensory saccades voluntary or reflexive? Experimental Brain Research, 168, 557-565.

Akerfelt, A., Colonius, H., & Diederich, A. (2006). Visual-tactile saccadic inhibition. Experimental Brain Research, 169, 554-63.

Armstrong, I. T., & Munoz, D. P. (2003). Inhibitory control of eye movements during oculomotor countermanding in adults with attention deficit hyperactivity disorder. Experimental Brain Research, 152, 444-452.

Bialystok, E., Craik, F. I. M., & Ryan, J. (2006). Executive control in a modified antisaccade task: Effects of Aging and Bilingualism. Journal of Experimental Psychology: Learning, Memory, & Cognition, 32, 1341-1354.

Blaukopf, C. L., & DiGirolamo, G. J. (2005). The automatic extraction and use of information from cues and go signals in an antisaccade task. Experimental Brain Research, 167, 654-659.

Blaukopf, C. L., & DiGirolamo, G. J. (2006). Differential effects of reward and punishment on conscious and unconscious eye movements. Experimental Brain Research, 174, 786-792.

Bojko, A., Kramer, A. F. & Peterson, M. S. (2004). Age equivalence in switch costs for prosaccade and antisaccade tasks. Psychology and Aging, 19, 226-234.

Boucher, L., Stuphorn, V., Logan, G. D., Schall, J. D., & Palmeri, T. J. (2007). Stopping eye and hand movements: Are the processes independent? Perception and Psychophysics, 69, 785-801.

Butler, S. H., Rossit, S., Gilchrist, I. D., Ludwig, C. J. H., Olk, B., Muir, K., Reeves, I., & Harvey, M. (2009). Non-lateralised deficits in anti-saccade performance in patients with hemispatial neglect. Neuropsychologia, 47, 2488-2495.

Cabel, D. W. J. , Armstrong, I. T. , Reingold, E. , & Munoz, D. P. (2000). Control of saccade initiation in a countermanding task using visual and auditory stop signals. Experimental Brain Research, 133, 431 - 441.

Chan, F., Armstrong, I. T., Pari, G., Riopelle, R. J., & Munoz, D. P. (2005). Deficits in saccadic eye-movement control in Parkinson’s disease. Neuropsychologia, 43, 784-796.

Cotti, J., Panouilleres, M., Munoz, D. P., Vercher, J. -L., Pelisson, D., & Guillaume, A. (2009). Adaptation of reactive and voluntary saccades: different patterns of adaptation revealed in the antisaccade task. Journal of Physiology, 587, 127 - 138.

Dafoe, J., Armstrong, I., & Munoz, D. (2007). The influence of stimulus direction and eccentricity on pro- and anti-saccades in humans. Experimental Brain Research, 179, 563-570.

Dépatie, L., O'Driscoll, G. A., Holahan, A.-L. V., Atkinson, V., Thavundayi, J. X., Kin, N. Y., & La, S. (2002). Nicotine and behavioral markers of risk for schizophrenia: A double-blind, placebo-controlled, cross-over study. Neuropsychopharmacology, 27, 1056-1070.

Edelman, J. A., Valenzuela, N., & Barton, J. S. (2006). Antisaccade velocity, but not latency, results from a lack of saccade visual guidance. Vision Research, 46, 1411-1421.

Emeric, E. E., Brown, J. W., Boucher, L., Carpenter, R. H. S., Hanes, D. P., Harris, R., Logan, G. d., Mashru, R. N., Pare, M., Pouget, P., Stuphorn, V., Taylor, T. L., & Schall, J. D. (2007). Influence of history on saccade countermanding performance in humans and macaque monkeys. Vision Research, 47, 35-49.

Fecteau, J. H., Au, C., Armstrong, I. T., & Munoz, D. P. (2004) Sensory biases produce the alternation advantage found in sequential saccadic eye movement tasks. Experimental Brain Research, 159, 84-91.

Ford, K. A., & Everling, S. (2009). Neural activity in primate caudate nucleus associated with pro- and anti-saccades. Journal of Neurophysiology, 102, 2334-2341.

Gais, S., Köster, S., Sprenger, A., Bethke, J., Heide, W., & Kimmig, H. (2008). Sleep is required for improving reaction times after training on a procedural visuo-motor task. Neurobiology of Learning and Memory, 90, 610-615.

Gilchrist, I. D., & Proske, H. (2006). Anti-saccades away from faces: evidence for an influence of high-level visual processes on saccade programming. Experimental Brain Research, 173, 708-712.

Godijn, R., & Kramer, A. F. (2006). Prosaccades and antisaccades to onsets and color singletons: Evidence that erroneous prosaccades are not reflexive. Experimental Brain Research, 172, 439-448.

Godijn, R., & Kramer, A. F. (2007). Antisaccade costs with static and dynamic targets. Perception and Psychophysics, 69, 802-815.

Godijn, R., & Kramer, A. F. (2008). The effect of attentional demands on the antisaccade cost. Perception & Psychophysics, 70, 795-806.

Gooding, D. C. (1999). Antisaccade task performance in questionnaire-identified schizotypes. Schizophrenia Research, 35, 157-166.

Gooding, D. C., Mohapatra, L., & Shea, H. B. (2004). Temporal stability of saccadic task performance in schizophrenia and bipolar patients. Psychological Medicine, 34, 921-932.

Gooding, D. C., Shea, H. B., & Matts, C. W. (2005). Saccadic performance in questionnaire-identifiedschizotypes over time. Psychiatry Research, 133, 173-186.

Gooding, D. C., & Tallent, K. A. (2001). The association between antisaccade task and working memory task performance in schizophrenia and bipolar disorder. The Journal of Nervous and Mental Disease, 189, 8-16.

Guyader, N., Malsert, J., & Marendaz, C. (2010). Having to identify a target reduces latencies in prosaccades but not in antisaccades. Psychological Research, 74, 12-20.

Hanisch, C., Radach, R., Holtkamp, K., Herpertz-Dahlmann, B., & Konrad, K. (2006). Oculomotor inhibition in children with and without attention deficit hyperactivity disorder (ADHD). Journal of Neural Transmission, 113, 671-684.

Hodgson, T. L., Golding, C., Molyva, D., Rosenthal, C. R., Kennard, C. (2004). Eye movements during task switching: Reflexive, symbolic, and affective contributions to response selection. Journal Of Cognitive Neuroscience, 16, 318-330.

Holahan, A.-L., V., & O’Driscoll, G. A. (2005). Antisaccade and smooth pursuit performance in positive- and negative-symptom schizotypy. Schizophrenia Research, 76, 43-54.

Huestegge, L., Radach, R., & Kunert, H. J. (2009). Long-term effects of cannabis on oculomotor function in humans. Journal of Psychopharmacology, 23, 714-722.

Hunt, A. R., & Klein, R. M. (2002). Eliminating the cost of task set reconfiguration. Memory & Cognition, 30, 529-539.

Juan, C.-H., Muggleton, N. G., Tzeng, O. J. L., Hung, D. L., Cowey, A., & Walsh, V. (2008). Segregation of visual selection and saccades in human frontal eye fields. Cerebral Cortex, 18, 2410 - 2415.

Klein, C. H., & Berg, P. (2001). Four-week test-retest stability of individual differences in the saccadic CNV, two saccadic task parameters, and selected neuropsychological tests. Psychophysiology, 38, 704-711.

Koehn, J. D., Roy, E., & Barton, J. J. S. (2008). The 'diagonal effect': a systematic error in oblique antisaccades. Journal of Neurophysiology, 100, 587-597.

LeVasseur, A. L., Flanagan, J. R., Riopelle, R. J., & Munoz, D. P. (2001). Control of volitional and reflexive saccades in Tourette's syndrome. Brain, 124, 2045-2058.

Leung, H.-C., & Cai, W. (2007). Common and differential ventrolateral prefrontal activity during inhibition of hand and eye movements. Journal of Neuroscience, 27, 9893 - 9900.

Loeber, S., & Duka, T. (2009). Acute alcohol decreases performance of an instrumental response to avoid aversive consequences in social drinkers. Psychopharmacology, 205, 577-587.

Loeber, S., & Duka, T. (2009). Acute alcohol impairs conditioning of a behavioural reward-seeking response and inhibitory control processes-implications for addictive disorders. Addiction, 104, 2013-2022.

Mitchell, J. P., Macrae, C. N., & Gilchrist, I. D. (2002). Working memory and the suppression of reflexive saccades. Journal of Cognitive Neuroscience, 14, 95-103.

Morein-Zamir, S., & Kingstone, A. (2006). Fixation offset and stop signal intensity effects on saccadic countermanding: A crossmodal investigation. Experimental Brain Research, 175, 453-462.

Morgan, C. J. A., Huddy, V., Lipton, M., Curran, H. V., & Joyce, E. M. (2009). Is persistent ketamine use a valid model of the cognitive and oculomotor deficits in schizophrenia? Biological Psychiatry, 65, 1099-1102.

O’Driscoll, G. A., Dépatie, L., Holahan, A. V., Savion-Lemieux, T., Barr, R. G., Jolicoeur, C., & Douglas, V. I. (2005). Executive functions and methylphenidate response in subtypes of attention-deficit/hyperactivity disorder. Biological Psychiatry, 57, 1452-1460.

Parton, A., Nachev, P., Hodgson, T. L., Mort, D., Thomas, D., Ordidge, R., Morgan, P. S., Jackson, S., Rees, G., & Husain, M. (2007). Role of the human supplementary eye field in the control of saccadic eye movements. Neuropsychologia, 45, 997-1008.

Peltsch, A., Hoffman, A., Armstrong, I., Pari, G., & Munoz, D. P. (2008). Saccadic impairments in Huntington’s disease. Experimental Brain Research, 186, 457-469.

Pratt, J., & Trottier, L. (2005) Pro-saccades and anti-saccades to onset and offset targets. Vision Research, 45, 765-774.

Rycroft, N., Hutton, S. B., & Rusted, J. M. (2006). The antisaccade task as an index of sustained goal activation in working memory: modulation by nicotine. Psychopharmacology, 188, 521-529.

Rycroft, N., Hutton, S. B., Clowry, O., Groomsbridge, C., Sierakowski, A., & Rusted, J. M. (2007). Non-cholinergic modulation of antisaccade performance: a modafinil-nicotine comparison. Psychopharmacology, 195, 245-253.

Sander, V., Soper, B., & Everling, S. (2010). Nonhuman primate event-related potentials associated with pro- and anti-saccades. NeuroImage, 49, 1650-1658.

Sogo, H., & Takeda, Y. (2009). Effect of spatial inhibition on saccade trajectory depends on location-based mechanisms. Japanese Psychological Research, 51, 35-46.

Tatler, B. W., & Hutton, S. B. (2007). Trial by trial effects in the antisaccade task. Experimental Brain Research, 179, 387-396.

Taylor, A. J. G., & Hutton, S. B. (2007). The effects of individual differences on cued antisaccade performance. Journal of Eye Movement Research, 1(1):5, 1-9.

Taylor, A. J. G., & Hutton, S. B. (2009). The effects of task instructions on pro and antisaccade performance. Experimental Brain Research, 195, 5-14.

Tseng, Y.-C., & Li, C.-S. R.(2008). The effects of response readiness and error monitoring on saccade countermanding. The Open Psychology Journal, 1, 18-25.

Van Zoest, W., Van der Stigchel, S., & Barton, J. J. S. (2008). Distractor effects on saccade trajectories: a comparison of prosaccades, antisaccades, and memory-guided saccades. Experimental Brain Research, 186, 431-442.

Vandierendonck, A., Deschuyteneer, M., Depoorter, A., & Drieghe, D. (2008). Input monitoring and response selection as components of executive control in pro-saccades and anti-saccades. Psychological Research, 72, 1-11.

Vorstius, C., Radach, R., Lang, A. R., & Riccardi, C. J. (2008). Specific visuomotor deficits due to alcohol intoxication: Evidence from the pro- and antisaccade paradigms. Psychopharmacology, 196, 201-210.

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Attention

Bayliss, A. P., Pellegrino, G., & Tipper, S. P. (2004). Orienting of attention via observed eye gaze is head-centred. Cognition, 94, B1-B10.

Becker, M. W., & Rasmussen, I. P. (2008). Guidance of attention to objects and locations by long-term memory of natural scenes. Journal of Experimental Psychology: Learning, Memory, and Cognition, 34, 1325-1338.

Belopolsky, A. V., & Theeuwes, J. (2009). When are attention and saccade preparation dissociated? Psychological Science, 20, 1340-1347.

Boot, W. R., Kramer, A. F., Becic, E., Wiegmann, A. A., & Kubose, T. (2006). Detecting transient changes in dynamic displays: The more you look, the less you see. Human Factors, 48, 759-773.

Boot, W. R., Kramer, A. F., & Peterson, M. S. (2005). Oculomotor consequences of abrupt object onsets and offsets: Onsets dominate oculomotor capture. Perception and Psychophysics, 67, 910-928.

Brockmore, J. R., & Boot, W. R. (2009). Should I stay or should I go? Attentional disengagement from visually unique and unexpected items at fixation. Journal of Experimental Psychology: Human Perception and Performance, 35, 808-815.

Calvo, M. G., & Castillo, D. (2009). Semantic word priming in the absence of eye fixations: Relative contributions of overt and covert attention. Psychonomic Bulletin & Review, 16, 51 - 56.

Calvo, M. G., & Nummenmaa, L. (2009). Lateralised covert attention in word identification. Laterality: Asymmetries of Body, Brain and Cognition, 14, 178-195.

Colas, F., Flacher, F., Tanner, T., Bessière, P., & Girard, B. (2009). Bayesian models of eye movement selection with retinotopic maps. Biological Cybernetics, 100, 203-214.

Cole, G. G., & Kuhn, G. (2009). Appearance matters: Attentional orienting by new objects in the precueing paradigm. Visual Cognition, 17, 755-776.

Deubel, H., & Schneider, W. X. (2003). Delayed saccades, but not delayed manual aiming movements, require visual attention shifts. Annals of the New York Academy of Sciences, 1004, 289-296.

Dickinson, C. A., & Intraub, H. (2009). Spatial asymmetries in viewing and remembering scenes: Consequences of an attentional bias? Atten Percept Psychophys, 71, 1251-1262.

Eckstein, M. P., Drescher, B. A., & Shimozaki, S. S. (2006). Attentional cues in real scenes, saccadic targeting, and bayesian priors. Psychological Science, 17, 973-980.

Einhäuser, W., Rutishauser, U., Frady, E. P., Nadler, S., König, P., & Koch, C. (2006). The relation of phase noise and luminance contrast to overt attention in complex visual stimuli. Journal of Vision, 6, 1148-1158. http://journalofvision.org/6/11/1/1148.

Franconeri, S. L., & Simons, D. J. (2005). What dynamic signals capture attention: A reply to Abrams & Christ (2005). Perception & Psychophysics, 67, 962-966.

Frey, H.-P., Honey, C., & König, P. (2008). What's color got to do with it? The influence of color on visual attention in different categories. Journal of Vision, 8(14):6, 1-17, http://journalofvision.org/8/14/6/, doi:10.1167/8.14.6.

Frischen, A., & Tipper, S., P. (2004). Orienting attention via observed gaze shift evokes longer term inhibitory effects: Implications for social interactions, attention, and memory. Journal of Experimental Psychology: General, 133, 516-533.

Geyer, T., Müller, H. J., & Krummenacher, J. (2008). Expectancies modulate attentional capture by salient color singletons. Vision Research, 48, 1315-1326.

Godijn, R., & Kramer, A. F. (2008). Oculomotor capture by surprising onsets. Visual Cognition, 16, 279-289.

Godijn, R., & Theeuwes, J. (2002). Oculomotor capture and inhibition of return. Psychological Research, 66, 234-246.

Godijn, R., & Theeuwes, J. (2002). Programming of exogenous and endogenous saccades: Evidence for a competitive integration model. Journal of Experimental Psychology: Human Perception and Performance, 28, 1039-1054.

Godijn, R., & Theeuwes, J. (2003). Parallel allocation of attention prior to the execution of saccade sequences. Journal of Experimental Psychology: Human Perception and Performance, 29, 882-896.

Godijn, R., & Theeuwes, J. (2004). The relationship between inhibition of return and saccade trajectory deviations. Journal of Experimental Psychology: Human Perception and Performance, 30, 538-554.

Guzman-Martinez, E., Leung, P., Franconeri, S., Grabowecky, M., & Suzuki, S. (2009). Rapid eye-fixation training without eyetracking. Psychonomic Bulletin & Review, 16, 491-496.

Hayashi, R., Sugita, Y., Nishida, S., & Kawano, K. (2010). How motion signals are integrated across frequencies: Study on motion perception and ocular following responses using multiple-slit stimuli. Journal of Neurophysiology, 103, 230-243.

Hunt, A. R., von Muhlenen, A., & Kingstone, A. (2007). The time course of attentional and oculomotor capture reveals a common cause. Journal of Experimental Psychology: Human Perception & Performance, 33, 271-284.

Hunt, A. R., Cooper, R. M., & Hungr, C., & Kingstone, A. (2007). The effect of emotional faces on eye movements and attention. Visual Cognition, 15, 513 - 531.

Imaruoka, T., Yanagida, T., & Miyauchi, S. (2003). Attentional set for external information activates the right intraparietal area. Cognitive Brain Research, 16, 199-209.

Iordanescu, L., Grabowecky, M., & Suzuki, S. (2009). Demand-based dynamic distribution of attention and monitoring of velocities during multiple-object tracking. Journal of Vision, 9(4):1, 1-12, http://journalofvision.org/9/4/1/, doi:10.1167/9.4.1.

Irwin, D. E., Colcombe, A. M., Kramer, A. F., & Hahn, S. (2000). Attentional and oculomotor capture by onset, luminance, and color singletons. Vision Research, 40, 1443-1458.

Itier, R. J., Villate, C., & Ryan, J. D. (2007). Eyes always attract attention but gaze orienting is task-dependent: Evidence from eye movement monitoring. Neuropsychologia, 45, 1019-1028.

Jost, T., Ouerhani, N., von Wartburg, R., Müri, R., & Hügli, H. (2005). Assessing the contribution of color in visual attention. Computer Vision and Image Understanding, 100, 107-123.

Kerzel, D. (2004). Attentional load modulates mislocalization of moving stimuli, but does not eliminate the error. Psychonomic Bulletin & Review, 11, 848-853.

Klein, R. M., Christie, J., & Morris, E. P. (2005). Vector averaging of inhibition of return. Psychonomic Bulletin & Review, 12, 295-300.

Koivisto, M., Hyönä, J., & Revonsuo, A. (2004). The effects of eye movements, spatial attention and stimulus features on inattentional blindness. Vision Research, 44, 3211-3221.

Kuhn, G., & Kingstone, A. (2009). Look away! Eyes and arrows engage oculomotor responses automatically? Attention, Perception, & Psychophysics, 71, 314 - 327.

Kuhn, G., Tatler, B. W., & Cole, G. (2009). You look where I look! Effect of gaze cues on overt and covert attention in misdirection. Visual Cognition, 17, 925-944.

Kuhn, G., & Findlay, J. M. (2010). Misdirection, attention and awareness: Inattentional blindness reveals temporal relationship between eye movements and visual awareness. The Quarterly Journal of Experimental Psychology, 63, 136-146.

Li, C.-S. R., & Lin, S.-C. (2002). Inhibition of return in temporal order saccades. Vision Research, 42, 2089-2093.

Li, C.-S. R., & Lin, S.-C. (2002). A perceptual level mechanism of the inhibition of return in oculomotor planning. Cognitive Brain Research, 14, 269-276.

Li, X., & Logan, G. D. (2008). Object-based attention in Chinese readers of Chinese words: Beyond Gestalt principles. Psychonomic Bulletin & Review, 15, 945 - 949.

Ludwig, C. J. H., Eckstein, M. P., & Beutter, B. R. (2007). Limited flexibility in the filter underlying saccadic targeting. Vision Research, 47, 280-288.

Ludwig, C. J. H., & Gilchrist, I. D. (2002). Stimulus-driven and goal-driven control over visual selection. Journal of Experimental Psychology: Human Perception & Performance, 28, 902-912.

Ludwig, C. J. H., & Gilchrist, I. D. (2003). Goal-driven modulation of oculomotor capture. Perception & Psychophysics, 65, 1243-1251.

Ludwig, C. J. H., & Gilchrist, I. D. (2006). The relative contributions of luminance contrast and task demands on saccade target selection. Vision Research, 46, 2743-2748.

Ludwig, C. J. H., Gilchrist, I. D., & McSorley, E. (2004). The influence of spatial frequency and contrast on saccade latencies. Vision Research, 44, 2597-2604.

Ludwig, C. J. H., Gilchrist, I. D., & McSorley, E. (2005). The remote distractor effect in saccade programming: channel interactions and lateral inhibition. Vision Research, 45, 1177-1190.

Ludwig, C. J. H., Gilchrist, I. D., McSorley, E., & Baddeley, R. J. (2005). The temporal impulse response underlying saccadic decisions. The Journal of Neuroscience, 25, 9907-9912.

Ludwig, C. J. H., Mildinhall, J. W., & Gilchrist, I.D. (2007). A population coding account for systematic variation in saccadic dead time. Journal of Neurophysiology, 97, 795-805.

Ludwig, C. J. H., Ranson, A., & Gilchrist, I. D. (2008). Oculomotor capture by transient events: A comparison of abrupt onsets, offsets, motion, and flicker. Journal of Vision, 8(14):11, 1-16, http://journalofvision.org/8/14/11/, doi:10.1167/8.14.11.

Mathôt, S., & Theeuwes, J. (2010). Evidence for the predictive remapping of visual attention. Experimental Brain Research, 200, 117-122.

Montagnini, A., & Castet, E. (2007). Spatiotemporal dynamics of visual attention during saccade preparation: Independence and coupling between attention and movement planning. Journal of Vision, 7(14):8, 1-16, http://journalofvision.org/7/14/8/, doi:10.1167/7.14.8.

Moores, E., Laiti, L., & Chelazzi, L. (2003). Associative knowledge controls deployment of visual selective attention. Nature Neuroscience, 6, 182-189.

Mortier, K., Donk, M., & Theeuwes, J. (2003). Attentional capture within and between objects. Acta Psychologica, 113, 133-145.

Mortier, K., van Zoest, W., Meeter, M., & Theeuwes, J. (2010). Word cues affect detection but not localization responses. Attention, Perception, & Psychophysics, 72, 65-75.

Mulckhuyse, M., van Zoest, W., & Theeuwes, J. (2008). Capture of the eyes by relevant and irrelevant onsets. Experimental Brain Research, 186, 225-235.

Nijboer, T. C. W., & Van der Stigchel, S. (2009). Is attention essential for inducing synesthetic colors? Evidence from oculomotor distractors. Journal of Vision, 9(6):21, 1-9, http://journalofvision.org/9/6/21/, doi:10.1167/9.6.21.

Nummenmaa, L., Hyönä, J., & Calvo, M. G. (2006). Eye movement assessment of selective attentional capture by emotional pictures. Emotion, 6, 257-268.

Olivers, C. N. L., Meijer, F., & Theeuwes, J. (2006). Feature-based memory-driven attentional capture: Visual working memory content affects visual attention. Journal of Experimental Psychology: Human Perception & Performance, 32, 1243-1265.

Onat, S., Libertus, K., & König, P. (2007). Integrating audiovisual information for the control of overt attention. Journal of Vision, 7(10):11, 1-16, http://journalofvision.org/7/10/11/, doi:10.1167/7.10.11.

Ouerhani, N., von Wartburg, R., Hugli, H., & Muri, R. (2004). Empirical validation of the saliency-based model of visual attention. Electronic Letters on Computer Vision and Image Analysis, 3, 13-24.

Palmer, J., Huk, A. C., & Shadlen, M. N. (2005). The effect of stimulus strength on the speed and accuracy of a perceptual decision. Journal of Vision, 5, 376-404. http://journalofvision.org/5/5/1/

Palmer, J., & Moore, C. M. (2009). Using a filtering task to measure the spatial extent of selective attention. Vision Research, 49, 1045-1064.

Pratt, J., & Neggers, B. (2008). Inhibition of return in single and dual tasks: Examining saccadic, keypress, and pointing responses. Perception and Psychophysics, 70, 257-265.

Rehder, B., & Hoffman, A. B. (2005). Eyetracking and selective attention in category learning. Cognitive Psychology, 51, 1-41.

Ricciardelli, P., Bricolo, E., Aglioti, S. M., & Chelazzi, L. (2002) My eyes want to look where your eyes are looking: Exploring the tendency to imitate another individual's gaze. NeuroReport, 13, 2259-2264.

Roefs, A., Jansen, A., Moresi, S., Willems, P., van Grootel, S., & van der Borgh, A. (2008). Looking good: BMI, attractiveness bias and visual attention. Appetite, 51, 552-555.

Rolfs, M., Engbert, R., & Kliegl, R. (2005). Crossmodal coupling of oculomotor control and spatial attention in vision and audition. Experimental Brain Research, 166, 427-439.

Scalf, P. E. & Beck, D. M. (2010). Competition in visual cortex impedes attention to multiple items. Journal of Neuroscience, 30, 161-169.

Schmidt, W. C. (2000). Endogenous attention and illusory line motion reexamined. Journal of Experimental Psychology: Human Perception and Performance, 26, 980 - 996.

Slotnick, S. D., Hopfinger, J. B., Klein, S. A., & Sutter E. E. (2002) Darkness beyond the light: Attentional inhibition surrounding the classic spotlight. Neuroreport, 13, 773-778.

Sogo, H., & Takeda, Y. (2007). Saccade trajectory under simultaneous inhibition for two locations. Vision Research, 47, 1537-1549.

Song, J.-H., & Nakayama, K. (2007). Fixation offset facilitates saccades and manual reaching for single but not multiple target displays. Experimental Brain Research, 177, 223-232.

Souto, D., & Kerzel, D. (2009). Evidence for an attentional component in saccadic inhibition of return. Experimental Brain Research, 195, 531-540.

Stojanoski, B., & Niemeier, M. (2007). Feature-based attention modulates the perception of object contours. Journal of Vision, 7(14):18, 1-11, http://journalofvision.org/7/14/18/, doi:10.1167/7.14.18.

Theeuwes, J., & Godijn, R. (2004). Inhibition of return and oculomotor interference. Vision Research, 44, 1485-1492.

Theeuwes, J., de Vries, G. J., & Godijn, R. (2003). Attentional and oculomotor capture with static singletons. Perception and Psychophysics, 65, 735-746.

Theeuwes, J., Godijn R., & Pratt, J. (2004). A new estimation of the attentional dwell time. Psychonomic Bulletin & Review, 11, 60-64.

Theeuwes, J., Kramer, A. F., Hahn, S., & Irwin, D. E. (1998). Our eyes do not always go where we want them to go: capture of the eyes by new objects. Psychological Science, 9, 379-385.

Theeuwes, J., Kramer, A. F., Hahn, S., Irwin, D. E., & Zelinsky, G. J. (1999). Influence of attentional capture on oculomotor control. Journal of Experimental Psychology: Human Perception & Performance, 25, 1595-1608.

Theeuwes, J., Olivers, C. N. L., & Chizk, C. L. (2005). Remembering a location makes the eyes curve away. Psychological Science, 16, 196-199.

Theeuwes, J., & Van der Stigchel, S. (2006). Faces capture attention: Evidence from inhibition-of-return. Visual Cognition, 13, 657-665.

Theeuwes, J., & Van der Stigchel, S. (2009). Saccade trajectory deviations and inhibition-of-return: Measuring the amount of attentional processing. Vision Research, 49, 1307-1315.

Theeuwes, J., Van der Stigchel, S., & Olivers, C. N. L. (2006). Spatial working memory and inhibition of return. Psychonomic Bulletin & Review, 13, 608-613.

Tse, P. U. (2005). Voluntary attention modulates the brightness of overlapping transparent surfaces. Vision Research, 45, 1095-1098.

Turatto, M., Vescovi, M., & Valsecchi, M. (2007). Attention makes moving objects be perceived to move faster. Vision Research, 47, 166-178.

Turk-Browne, N., & Pratt, J. (2005) Attending to eye movements and retinal eccentricity: Evidence for the Activity Distribution Model of Attention reconsidered. Journal of Experimental Psychology: Human Perception and Performance, 31, 1061-1066.

Van der Stigchel, S., & Theeuwes, J. (2007). The relationship between covert and overt attention in endogenous cueing Perception and Psychophysics, 69, 719-731.

Van der Stigchel, S., Meeter, M., & Theeuwes, J. (2007). The spatial coding of the inhibition evoked by distractors. Vision Research, 47, 210-218.

Van der Stigchel, S., Meeter, M., & Theeuwes, J. (2007). Top-down influences make saccades deviate away: The case of endogenous cues. Acta Psychologica, 125, 279-290.

Van der Stigchel, S., & Theeuwes, J. (2005). The influence of attending to multiple locations on eye movements. Vision Research, 45, 1921-1927.

Van der Stigchel, S., & Theeuwes, J. (2006). Our eyes deviate away from a location where a distractor is expected to appear. Experimental Brain Research, 169, 338-349.

Van der Stigchel, S., & Theeuwes, J. (2008). Differences in distractor induced deviation between horizontal and vertical saccade trajectories, Neuroreport, 19, 251-254.

van Ee, R., Noest, A. J., Brascamp, J. W., & van den Berg, A. V. (2006). Attentional control over either of the two competing percepts of ambiguous stimuli revealed by a two-parameter analysis: Means do not make the difference. Vision Research, 46, 3129-3141.

van Zoest, W., & Donk, M. (2005) The effects of salience on saccadic target selection. Visual Cognition, 12, 353-375.

van Zoest, W., & Donk, M. (2006). Saccadic target selection as a function of time. Spatial Vision, 19, 61-76.

Van Zoest, W., & Donk, M. (2008). Goal-driven modulation as a function of time in saccadic target selection. The Quarterly Journal of Experimental Psychology, 61, 1553-1572.

van Zoest, W., Donk, M., & Theeuwes, J. (2004). The role of stimulus-driven and goal-driven control in visual selection. Journal of Experimental Psychology: Human Perception and Performance, 30, 746-759.

Wilimzig, C., Tsuchiya, N., Fahle, M., Einhäuser, W., & Koch, C. (2008). Spatial attention increases performance but not subjective confidence in a discrimination task. Journal of Vision, 8(5):7, 1-10, http://journalofvision.org/8/5/7/, doi:10.1167/8.5.7.

Wilkowski, B. M., Robinson, M. D., Gordon, R. D., & Troop-Gordon, W. (2007). Tracking the evil eye: Trait anger and selective attention within ambiguously hostile scenes. Journal of Research in Personality, 41, 650-666.

Wong, J. H., Peterson, M. S., & Hillstrom, A. P. (2007). Are changes in semantic and structural information sufficient for oculomotor capture? Journal of Vision, 7(12):3, 1-10, http://journalofvision.org/7/12/3/, doi:10.1167/7.12.3.

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Perception (Scene/Face Perception/Illusion)

Açik, A., Onat, S., Schumann, F., Einhäuser, W., & König, P. (2009). Effects of luminance contrast and its modifications on fixation behavior during free viewing of images from different categories. Vision Research,49, 1541-1553.

Afraz, A. & Cavanagh, P. (2009). The gender-specific face aftereffect is based in retinotopic not spatiotopic coordinates across several natural image transformations. Journal of Vision, 9(10):10, 1-17, http://journalofvision.org/9/10/10/, doi:10.1167/9.10.10.

Bate, S., Haslam, C., & Hodgson, T. L. (2009). Angry faces are special too: Evidence from the visual scanpath. Neuropsychology, 23, 658-667.

Becker, M. W., & Detweiler-Bedell, B. (2009). Early detection and avoidance of threatening faces during passive viewing. The Quarterly Journal of Experimental Psychology, 62, 1257-1264.

Becker, S. I., Ansorge, U., & Turatto, M. (2009). Saccades reveal that allocentric coding of the moving object causes mislocalization in the flash-lag effect. Attention, Perception & Psychophysics, 71, 1313-1324.

Bindemann, M., Scheepers, C., & Burton, A. M. (2009). Viewpoint and center of gravity affect eye movements to human faces. Journal of Vision, 9(2):7, 1-16, http://journalofvision.org/9/2/7/, doi:10.1167/9.2.7.

Birmingham, E., Bischof, W. F., & Kingstone, A. (2007). Why do we look at people's eyes? Journal of Eye Movement Research, 1(1):1, 1-6, http://jemr.org/.

Birmingham, E., Bischof, W. F., & Kingstone, A. (2008). Gaze selection in complex social scenes. Visual Cognition, 16, 341-355.

Birmingham, E., Bischof, W. F., & Kingstone, A. (2008). Social attention and real-world scenes: The roles of action, competition and social content. The Quarterly Journal of Experimental Psychology, 61, 986-998.

Birmingham, E., Bischof, W. F., & Kingstone, A. (2009). Get real! Resolving the debate about equivalent social stimuli. Visual Cognition, 17, 904-924.

Birmingham, E., Bischof, W. F., & Kingstone, A. (2009). Saliency does not account for fixations to eyes within social scenes. Vision Research, 49, 2992-3000.

Bleumers, L., De Graef, P., Verfaillie, K., & Wagemans, J. (2008). Eccentric grouping by proximity in multistable dot lattices. Vision Research, 48, 179-192.

Blais, C., Jack, R. E., Scheepers, C, Fiset, D., & Caldara, R. (2008). Culture shapes how we look at faces. PLoS ONE. 2008; 3(8): e3022.

Böhme, M., Dorr, M., Krause, C., Martinetz, T., & Barth, E. (2006). Eye movement predictions on natural videos. Neurocomputing, 69, 1996-2004.

Bonitz, V. S., & Gordon, R. D. (2008). Attention to smoking-related and incongruous objects during scene viewing. Acta Psychologica, 129, 255-263.

Brenner, E., Meijer, W. J., & Cornelissen, F. W. (2005). Judging relative positions across saccades. Vision Research, 45, 1587-1602.

Brockmole, J. R., & Irwin, D. E. (2005). Eye movements and the integration of visual memory and visual perception. Perception and Psychophysics, 67, 495-512.

Brouwer, G. J., & van Ee, R. (2006). Endogenous influences on perceptual bistability depends on exogenous stimulus characteristics. Vision Research, 46, 3393-3402.

Brouwer, G. J., & van Ee, R. (2007). Visual cortex allows prediction of perceptual states during ambiguous structure-from-motion. Journal of Neuroscience, 27, 1015-1023.

Buchan, J. N., Paré, M., & Munhall, K. G. (2007). Spatial statistics of gaze fixations during dynamic face processing. Social Neuroscience, 2, 1-13.

Buchan, J. N., Paré, M., & Munhall, K. G. (2008). The effect of varying talker identity and listening conditions on gaze behavior during audiovisual speech perception. Brain Research, 1242, 162-171.

Butler, S., Gilchrist, I. D., Burt, D. M., Perrett, D. I., Jones, E., & Harvey, M. (2005). Are the perceptual biases found in chimeric face processing reflected in eye-movement patterns? Neuropsychologia, 43, 52-59.

Calvo, M. G., & Nummenmaa, L. (2007). Processing of unattended emotional visual scenes. Journal of Experimental Psychology: General, 136, 347-369.

Calvo, M. G., Nummenmaa, L., & Hyönä, J. (2007). Emotional and neutral scenes in competition: Orienting, efficiency, and identification. Quarterly Journal of Experimental Psychology, 60, 1585-1593.

Calvo, M. G., Nummenmaa, L., & Hyönä, J. (2008). Emotional scenes in peripheral vision: Selective orienting and gist processing, but not content identification. Emotion, 8, 68-80.

Calvo, M. G., & Nummenmaa, L. (2009). Eye-movement assessment of the time course in facial expression recognition: Neurophysiological implications. Cognitive, Affective, & Behavioral Neuroscience, 9, 398-411.

Cerf, M., Frady, E. P., & Koch, C. (2009). Faces and text attract gaze independent of the task: Experimental data and computer model. Journal of Vision, 9(12):10, 1-15, http://journalofvision.org/9/12/10/, doi:10.1167/9.12.10.

Chahine, G., & Krekelberg, B. (2009). Cortical contributions to saccadic suppression. PLoS ONE 4(9): e6900. doi:10.1371/journal.pone.0006900.

Cristino, F., & Baddeley, R. (2009). The nature of the visual representations involved in eye movements when walking down the street. Visual Cognition, 17, 880-903.

Dassonville, P., & Bala, J. K. (2004). Perception, action, and Roelofs effect: A mere illusion of dissociation. PLoS Biology, 2, 1936-1945.

Dassonville, P., Bridgeman, B., Bala, J. K., Thiem, P., & Sampanes, A. (2004). The induced Roelofs effect: Two visual systems or the shift of a single reference frame? Vision Research, 44, 603-611.

de Grave, D. D. J., Smeets, J. B. J., & Brenner, E. (2006). Why are saccades influenced by the Brentano illusion? Experimental Brain Research, 175, 177-182.

De Filippo, C. L., & Lansing, C. R. (2006). Eye fixations of deaf and hearing observers in simultaneous communication perception. Ear & Hearing, 27, 331-352.

Digirolamo, G. J., McCarley, J. S., Kramer, A. F., & Griffin, H. J. (2008). Voluntary and reflexive eye movements to illusory lengths. Visual Cognition, 16, 68-89.

Dorr, M., Gegenfurtner, K. R., & Barth, E. (2009). The contribution of low-level features at the centre of gaze to saccade target selection. Vision Research, 49, 2918-2926.

Droll, J. A., Gigone, K., & Hayhoe, M. M. (2007). Learning where to direct gaze during change detection. Journal of Vision, 7(14):6, 1-12, http://journalofvision.org/7/14/6/, doi:10.1167/7.14.6.

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Hsiao, J. H., & Cottrell, G. W. (2009). Not all visual expertise is holistic, but it may be leftist: The case of Chinese character recognition. Psychological Science, 20, 455-463.

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Klingenhoefer, S., & Bremmer, F. (2009). Perisaccadic localization of auditory stimuli. Experimental Brain Research, 198, 411-423.

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Knapen, T., Brascamp, J., Adams, W. J., & Graf, E. W. (2009). The spatial scale of perceptual memory in ambiguous figure perception. Journal of Vision, 9(13):16, 1-12, http://journalofvision.org/9/13/16/, doi:10.1167/9.13.16.

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Lansing C. R., & McConkie, G. W. (2003). Word identification and eye fixation locations in visual and visual-plus-auditory presentations of spoken sentences. Perception & Psychophysics, 65, 536-552.

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Memory and Cognition

Barrington, L., Marks, T. K., Hui-wen Hsiao, J., & Cottrell, G. W. (2008). NIMBLE: A kernel density model of saccade-based visual memory. Journal of Vision, 8(14):17, 1-14, http://journalofvision.org/8/14/17/, doi:10.1167/8.14.17.

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Bledowski, C., Rahm, B., & Rowe, J. B. (2009). What "works" in working memory? Separate systems for selection and updating of critical information. Journal of Neuroscience, 29, 13735-13741.

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Coulson, S., Urbach, T. P., & Kutas, M. (2006). Looking back: Joke comprehension and the space structuring model. Humor - International Journal of Humor Research, 19, 229-250.

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Hamilton, D. A., Johnson, T. E., Redhead, E. S., & Verney, S. P. (2009). Control of rodent and human spatial navigation by room and apparatus cues. Behavioural Processes, 81, 154-169.

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Hogarth, L., Dickinson, A., & Duka, T. (2010). The associative basis of cue-elicited drug taking in humans. Psychopharmacology, 208, 337-351.

Irwin, D. E., & Thomas, L. E. (2007). The effect of saccades on number processing. Perception & Psychophysics, 69, 450-458.

Jack, R. E., Blais, C., Scheepers, C., Schyns, P. G., & Caldara, R. (2009). Cultural confusions show that facial expressions are not universal. Current Biology, 19, 1543-1548.

Jacob, M., & Hochstein, S. (2010). Graded recognition as a function of the number of target fixations. Vision Research, 50, 107-117.

Kang, M. J., Hsu, M., Krajbich, I. M., Loewenstein, G., McClure, S. M., Wang, J. T.-Y., & Camerer, C. F. (2009). The wick in the candle of learning: Epistemic curiosity activates reward circuitry and enhances memory. Psychological Science, 20, 963-973.

Körner, C., & Gilchrist, I. D. (2004). Eye movements in a simple spatial reasoning task. Perception, 33, 485-494.

Kriz, S., &, Hegarty, M. (2007). Top-down and bottom-up influences on learning from animations. International Journal of Human-Computer Studies, 65, 911-930.

Kuo, F.-Y., Hsu, C.-W., & Day, R.-F. (2009). An exploratory study of cognitive effort involved in decision under framing-an application of the eye-tracking technology. Decision Support Systems, 48, 81-91.

Kuperman, V., Bertram, R., & Baayen, R. H. (2010). Processing trade-offs in the reading of Dutch derived words. Journal of Memory and Language, 62, 83-97.

Loeber, S., & Duka, T. (2009). Extinction learning of stimulus reward contingencies: The acute effects of alcohol. Drug and Alcohol Dependence, 102, 56-62.

Mäntylä, T., & Holm, L. (2005). Remembering parts and wholes: Configural processing in face recollection. European Journal of Cognitive Psychology, 17, 753-769.

Marshall, S. P. (2007) Identifying cognitive state from eye metrics. Aviation, Space, and Environmental Medicine, 78, B165-175.

McSorley, E., & McCloy, R. (2009). Saccadic eye movements as an index of perceptual decision-making. Experimental Brain Research, 198, 513-520.

Mikulic, A., & Dorris, M. C. (2008). The temporal and spatial allocation of motor preparation during a mixed-strategy game. Journal of Neurophysiology, 100, 2101-2108.

Moeller, K., Fischer, M. H., Nuerk, H.-C., & Willmes, K. (2009). Sequential or parallel decomposed processing of two-digit numbers? Evidence from eye-tracking. The Quarterly Journal of Experimental Psychology, 62, 323-334.

Mou, W., Liu, L., & McNamara, T. P. (2009). Layout geometry in encoding and retrieval of spatial memory. Journal of Experimental Psychology: Human Perception and Performance, 35, 83-93.

Nakatani, C., & Pollatsek, A. (2004). An eye movement analysis of "mental rotation" of simple scenes, Perception and Psychophysics, 66, 1227-1245.

Rayner, K., Li, X., Williams, C. C., Cave, K. R., & Well, A. D. (2007). Eye movements during information processing tasks: Individual differences and cultural effects. Vision Research, 47, 2714-2726.

Rehder, B., Colner, R. M., & Hoffman, A. B. (2009). Feature inference learning and eyetracking. Journal of Memory and Language, 60, 393-419.

Rehder, B., & Hoffman, A. B. (2005). Thirty-something categorization results explained: Selective attention, eyetracking, and models of category learning. Journal of Experimental Psychology: Learning, Memory, and Cognition, 31, 811-829.

Reingold, E. M. (2002). On the perceptual specificity of memory representations. Memory, 10, 365-379.

Reingold, E. M., Charness, N., Pomplun, M., & Stampe, D. M. (2001). Visual span in expert chess players: Evidence from eye movements. Psychological Science, 12, 48-55.

Roelofs, A. (2008). Attention, gaze shifting, and dual-task interference from phonological encoding in spoken word planning. Journal of Experimental Psychology: Human Perception and Performance, 34, 1580-1598.

Ryan, J. D., & Villate, C. (2009). Building visual representations: The binding of relative spatial relations across time. Visual Cognition, 17, 254 - 272.

Saint-Aubin, J., Tremblay, S., & Jalbert, A. (2007). Eye movements and serial memory for visual-spatial information: Does time spent fixating contribute to recall? Experimental Psychology, 54, 264-272.

Sanchez, C. A., & Wiley, J. (2006). An examination of the seductive details effect in terms of working memory capacity. Memory & Cognition, 34, 344-355.

Schwarz, W., & Keus, I. M. (2004). Moving the eyes along the mental number line: Comparing SNARC effects with saccadic and manual responses. Perception & Psychophysics, 66, 651-664.

Schrammel, F., Pannasch, S., Graupner, S.-T., Mojzisch, A., & Velichkovsky, B. M. (2009). Virtual friend or threat? The effects of facial expression and gaze interaction on psychophysiological responses and emotional experience. Psychophysiology, 46, 922-931.

Shimojo, S., Simion, C., Shimojo, E., & Scheier, C. (2003). Gaze bias both reflects and influences preference. Nature Neuroscience, 6, 1317-1322.

Simion, C., & Shimojo, S. (2006). Early interactions between orienting, visual sampling and decision making in facial preference. Vision Research, 46, 3331-3335.

Simion, C., & Shimojo, S. (2007). Interrupting the cascade: Orienting contributes to decision making even in the absence of visual stimulation. Perception & Psychophysics, 69, 591-595.

Sprenger, A., Lappe-Osthege, M., Talamo, S., Gais, S., Kimmig, H., & Helmchen, C. (2010). Eye movements during REM sleep and imagination of visual scenes. NeuroReport, 21, 45-49.

Stoyanova, R. S., Pratt, J., & Anderson, A. K. (2007). Inhibition of return to social signals of fear. Emotion, 7, 49-56.

Thomas, L. E., & Irwin, D. E. (2006). Voluntary eyeblinks disrupt iconic memory. Perception and Psychophysics, 68, 475-488.

Thomas, L. E., & Lleras, A. (2007). Moving eyes and moving thought: On the spatial compatibility between eye movements and cognition. Psychonomic Bulletin & Review, 14, 663-668.

Tremblay, S., Saint-Aubin, J., & Jalbert, A. (2006). Rehearsal in serial memory for visual-spatial information: Evidence from eye movements. Psychonomic Bulletin & Review, 13, 452-457.

Tremblay, S., & Saint-Aubin, J. (2009). Evidence of anticipatory eye movements in the spatial hebb repetition effect: Insights for modeling sequence learning. Journal of Experimental Psychology: Learning, Memory, and Cognition, 35, 1256-1265.

Van der Stigchel, S., Merten, H., Meeter, M., & Theeuwes, J. (2007). The effects of a task-irrelevant visual event on spatial working memory. Psychonomic Bulletin & Review, 14, 1066-1071.

Vigneau, F., Caissie, A. F., & Bors, D. A. (2006). Eye-movement analysis demonstrates strategic influences on intelligence. Intelligence, 34, 261-272.

Zwickel, J., & Müller, H. J. (2009). Eye movements as a means to evaluate and improve robots. International Journal of Social Robotic, 1, 357-366.

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Motion Perception

Boström, K. J., & Warzecha, A.-K. (2009). Ocular following response to sampled motion. Vision Research, 49, 1693-1701.

Calow, D., & Lappe, M. (2007). Local statistics of retinal optic flow for self-motion through natural sceneries. Network: Computation in Neural Systems, 18, 343 - 374.

Caplovitz, G. P., Hsieh, P. -J., & Tse, P. U. (2006). Mechanisms underlying the perceived angular velocity of a rigidly rotating object. Vision Research, 46, 2877-2893.

Caplovitz, G. P., Paymer, N. A., & Tse, P. U. (2008). The Drifting Edge Illusion: A stationary edge abutting an oriented drifting grating appears to move because of the ‘other aperture problem. Vision Research, 48, 2403-2414.

Caplovitz, G. P., & Tse, P. U. (2007). Rotating dotted ellipses: Motion perception driven by grouped figural rather than local dot motion signals. Vision Research, 47, 979-1991.

Caplovitz, G. P., & Tse, P. U. (2007). V3A processes contour curvature as a trackable feature for the perception of rotational motion. Cerebral Cortex, 17, 1179-1189.

Dahlstrom-Hakki, I., & Pollatsek, A. (2006). Limits on integrating motion information across saccades. Perception & Psychophysics, 68, 44-54.

Duijnhouwer, J., van Wezel, R. J. A., & van den Berg, A. V. (2008). The role of motion capture in an illusory transformation of optic flow fields. Journal of Vision, 8(4):27, 1-18, http://journalofvision.org/8/4/27/, doi:10.1167/8.4.27.

Ezzati, A., Golzar, A., & Afraz, A. S. R. (2008). Topography of the motion aftereffect with and without eye movements. Journal of Vision, 8(14):23, 1-16, http://journalofvision.org/8/14/23/, doi:10.1167/8.14.23.

Harris, L. R., & Smith, A. T. (2000). Interactions between first- and second-order motion revealed by optokinetic nystagmus. Experimental Brain Research, 130, 67-72.

Hisakata, R., & Murakami, I. (2008). The effects of eccentricity and retinal illuminance on the illusory motion seen in a stationary luminance gradient. Vision Research, 48, 1940-1948.

Hsieh, P. -J., Caplovitz , G. P., & Tse, P. U. (2006).Illusory motion induced by the offset of stationary luminance-defined gradients. Vision Research, 46, 970-978.

Hsieh, P. -J., Caplovitz , G. P., & Tse, P. U. (2005).Illusory rebound motion and the motion continuity heuristic. Vision Research, 45, 2972-2985.

Hsieh, P. -J., & Tse, P. U. (2006). Illusory color mixing upon perceptual fading and filling-in does not result in ‘forbidden colors’. Vision Research, 46, 2251-2258.

Hsieh, P. -J., & Tse, P. U. (2006). Stimulus factors affecting illusory rebound motion. Vision Research, 46, 1924-1933.

Hsieh, P. -J., & Tse, P. U. (2007). Grouping inhibits motion fading by giving rise to virtual trackable features. Journal of Experimental Psychology: Human Perception & Performance, 33, 57-63.

Hsieh, P. -J., & Tse, P. U. (2009). Motion fading and the motion aftereffect share a common process of neural adaptation. Attention, Perception, & Psychophysics, 71, 724-733.

Ikeda, H., Blake, R., & Watanabe, K. (2005). Eccentric perception of biological motion is unscalably poor. Vision Research, 45, 1935-1943.

Kanai, R., Sheth, B. R., & Shimojo, S. (2007). Dynamical evolution of motion perception. Vision Research, 7, 937-945.

Kerzel, D. (2003). Mental extrapolation of target position is strongest with weak motion signals and motor responses. Vision Research, 43, 2623-2635.

Kerzel, D., & Gegenfurtner, K. R. (2003). Neuronal processing delays are compensated in the sensorimotor branch of the visual system. Current Biology, 13, 1975-1978.

Kerzel, D., & Gegenfurtner, K. R. (2005). Motion-induced illusory displacement reexamined: differences between perception and action? Experimental Brain Research, 162, 191-201.

Knapen, T., Rolfs, M., & Cavanagh, P. (2009). The reference frame of the motion aftereffect is retinotopic. Journal of Vision, 9(5):16, 1-6, http://journalofvision.org/9/5/16/, doi:10.1167/9.5.16.

Kohler, P. J., Caplovitz, G. P., & Tse, P. U. (2009). The whole moves less than the spin of its parts. Attention, Perception, & Psychophysics. 71, 675-679.

Laubrock, J., Engbert, R., & Kliegl, R. (2008). Fixational eye movements predict the perceived direction of ambiguous apparent motion. Journal of Vision, 8(14):13, 1-17, http://journalofvision.org/8/14/13/, doi:10.1167/8.14.13.

Maffei, V., Macaluso, E., Indovina, I., Orban, G. A., & Lacquaniti, F. (2010). Processing of targets in smooth or apparent motion along the vertical in the human brain: an fMRI study. Journal of Neurophysiology, 103, 360-370.

Moutoussis, K., Keliris, G., Kourtzi, Z., & Logothetis, N. (2005). A binocular rivalry study of motion perception in the human brain. Vision Research, 45, 2231-2243.

Mrotek, L. A., & Soechting, J. F. (2007). Predicting curvilinear target motion through an occlusion. Experimental Brain Research, 178, 99-114.

Niu, Y.-Q., Xiao, Q., Liu, R.-F., Wu, L.-Q., & Wang, S.-R. (2006). Response characteristics of pretectal neurons to illusory contours and motion. Journal of Physiology, 577, 805-813.

Niwa, M., & Ditterich, J. (2008). Perceptual decisions between multiple directions of visual motion. Journal of Neuroscience, 28, 4435-4445.

Saijo, N., Murakami, I., Nishida, S., & Gomi, H. (2005). Large-field visual motion directly induces an involuntary rapid manual following response. The Journal of Neuroscience, 25, 4941-4951.

Schlag, J., Cai, R. H., Dorfman, A., Mohempour, A., & Schlag-Rey, M. (2000). Extrapolating movement without retinal motion. Nature, 403, 38-39.

Watanabe, K., & Yokoi, K. (2006). Object-based anisotropies in the flash-lag effect. Psychological Science, 17, 728-735.

Watanabe, K., & Yokoi, K. (2007). Object-based anisotropic mislocalization by retinotopic motion signals. Vision Research, 12, 1662-1667.

Watanabe, K., & Yokoi, K. (2008). Dynamic distortion of visual position representation around moving objects. Journal of Vision, 8(3):13, 1-11, http://journalofvision.org/8/3/13/, doi:10.1167/8.3.13.

Tse, P. U., & Hsieh, P.-J. (2006). The infinite regress illusion reveals faulty integration of local and global motion signals. Vision Research, 46, 3881-3885.

Tse, P. U., & Hsieh, P.-J. (2007). Component and intrinsic motion integrate in 'dancing bar' illusion. Biological Cybernetics, 96, 1-8.

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Eye-Hand Coordination/Pointing

Baldauf, D., & Deubel, H. (2008). Visual attention during the preparation of bimanual movements. Vision Research, 48, 549-563.

Baldauf, D., Wolf, M., & Deubel, H. (2006). Deployment of visual attention before sequences of goal-directed hand movements. Vision Research, 46, 4355-4374.

Beurze, S. M., van Pelt, S., & Medendorp, W. P. (2006). Behavioral reference frames for planning human reaching movements. Journal of Neurophysiology, 96, 352 - 362.

Brenner, E., & Smeets, J. B. J. (2007). Flexibility in intercepting moving objects. Journal of Vision, 7(5):14, 1-17, http://journalofvision.org/7/5/14/, doi:10.1167/7.5.14.

Brenner, E., & Smeets, J. B. J. (2009). Sources of variability in interceptive movements. Experimental Brain Research, 195, 117-133.

Brouwer, A.-M., Franz, V. H., & Gegenfurtner, K. R. (2009). Differences in fixations between grasping and viewing objects. Journal of Vision, 9(1):18, 1-24, http://journalofvision.org/9/1/18/, doi:10.1167/9.1.18.

Brozzoli, C., Pavani, F., Urquizar, C., Cardinali, L., & Farne, A. (2009). Grasping actions remap peripersonal space. Neuroreport, 20, 913-917.

Cardoso de Oliveira, S., & Barthélémy, S. (2005). Visual feedback reduces bimanual coupling of movement amplitudes, but not of directions. Experimental Brain Research, 162, 78-88.

Collins, T., Schicke, T., & Röder, B. (2008). Action goal selection and motor planning can be dissociated by tool use. Cognition, 109, 363-371.

de Grave, D. D. J., Franz, V. H., & Gegenfurtner, K. R. (2006). The influence of the Brentano illusion on eye and hand movements. Journal of Vision, 6, 727-738. http://journalofvision.org/6/7/5/.

de Grave, D. D. J., Hesse, C., Brouwer, A.-M., & Franz, V. H. (2008). Fixation locations when grasping partly occluded objects. Journal of Vision, 8(7):5, 1-11, http://journalofvision.org/8/7/5/, doi:10.1167/8.7.5.

Desmurget, M., Turner, R. S., Prablanc, C., Russo, G. S., Alexander, G. E., & Grafton, S. T. (2005). Updating target location at the end of an orienting saccade affects the characteristics of simple point-to-point movements. Journal of Experimental Psychology: Human Perception & Performance, 31, 1510-1536.

Dessing, J. C., Wijdenes, L. O., Peper, C. E., & Beek, P. J. (2009). Visuomotor transformation for interception: catching while fixating. Experimental Brain Research, 196, 511-527.

Ehresman, C., Saucier, D., Heath, M., & Binsted, G. (2008). Online corrections can produce illusory bias during closed-loop pointing. Experimental Brain Research, 188, 371-378.

Fornos, A. P., Sommerhalder, J., Pittard, A., Safran, A. B., & Pelizzone, M. (2008). Simulation of artificial vision: IV. Visual information required to achieve simple pointing and manipulation tasks. Vision Research, 48, 1705-1718.

Gorbet, D. J., & Sergio, L. E. (2009). The behavioral consequences of dissociating the spatial directions of eye and arm movements. Brain Research, 1284, 77-88.

Greenwald, H. S., & Knill, D. C. (2009). Cue integration outside central fixation: A study of grasping in depth. Journal of Vision, 9(2):11, 1-16, http://journalofvision.org/9/2/11/, doi:10.1167/9.2.11.

Horstmann, A., & Hoffmann, K.-P. (2005). Target selection in eye-hand coordination: Do we reach to where we look or do we look to where we reach? Experimental Brain Research, 167, 187-195.

Juravle, G., & Deubel, H. (2009). Action preparation enhances the processing of tactile targets. Experimental Brain Research, 198, 301-311.

Ketcham, C. J., Dounskaia, N. V., & Stelmach, G. E. (2006). The role of vision in the control of continuous multijoint movements. Journal of Motor Behavior, 38, 29-44.

Lemay, M., & Stelmach, G. E. (2005). Multiple frames of reference for pointing to a remembered target. Experimental Brain Research, 164, 301-310.

Lünenburger, L., & Hoffmann, K.-P. (2003). Arm movement and gap as factors influencing the reaction time of the second saccade in a double-step task. European Journal of Neuroscience, 17, 2481-2491.

Neggers, S. F. W., & Bekkering, H. (1999). Integration of visual and somatosensory target information in goal-directed eye and arm movements. Experimental Brain Research, 125, 97-107.

Neggers, S. F. W., & Bekkering, H. (2000). Ocular gaze is anchored to the target of an ongoing pointing movement. The Journal of Neurophysiology, 83, 639-651.

Neggers, S. F. W., & Bekkering, H. (2001). Gaze anchoring to a pointing target Is present during the entire pointing movement and Is driven by a non-visual signal. The Journal of Neurophysiology, 86, 961-970.

Neggers, S. F. W., & Bekkering, H. (2002). Coordinated control of eye and hand movements in dynamic reaching. Human Movement Science, 21, 37-64.

Mrotek, L. A., Flanders, M., & Soechting, J. F. (2004). Interception of targets using brief directional cues. Experimental Brain Research, 156, 94 - 103.

Mrotek, L. A., & Soechting, J. F. (2007). Target interception: Hand-eye coordination and strategies. Journal of Neuroscience, 27, 7297-7309.

Rolheiser, T. M., Binsted, G., & Brownell, K. J. (2006). Visuomotor representation decay: influence on motor systems. Experimental Brain Research, 173, 698-707.

Soechting, J. F., & Flanders, M. (2008). Extrapolation of visual motion for manual interception. Journal of Neurophysiology, 99, 2956-2967.

Soechting, J. F., Juveli, J. Z., & Rao, H. M. (2009). Models for the Extrapolation of Target Motion for Manual Interception. Journal of Neurophysiol, 102, 1491 - 1502.

Sorrento, G. U., & Henriques, D. Y. P. (2008). Reference frame conversions for repeated arm movements. Journal of Neurophysiology, 99, 2968 - 2984.

Stritzke, M., & Trommershäuser, J. (2007). Eye movements during rapid pointing under risk. Vision Research, 47, 2000-2009.

Thompson, A. A., & Westwood, D. A. (2007). The hand knows something that the eye does not: Reaching movements resist the Müller-Lyer illusion whether or not the target is foveated. Neuroscience Letters, 416, 111-116.

Thompson, A. A., & Henriques, D. Y. P. (2008). Updating visual memory across eye movements for ocular and arm motor control. Journal of Neurophysiology, 100, 2507 - 2514

van Pelt, S., & Medendorp, W. P. (2007). Gaze-centered updating of remembered visual space during active whole-body translations. Journal of Neurophysiology, 97, 1209-1220.

Verrel, J., Bekkering, H., & Steenbergen, B. (2008). Eye-hand coordination during manual object transport with the affected and less affected hand in adolescents with hemiparetic cerebral palsy. Experimental Brain Research, 187, 107-116.

Vidoni, E. D., McCarley, J. S., Edwards, J. D., & Boyd, L. A. (2009). Manual and oculomotor performance develop contemporaneously but independently during continuous tracking. Experimental Brain Research, 195, 611-620.

White, B. J., Kerzel, D., & Gegenfurtner, K. R. (2006). Visually guided movements to color targets. Experimental Brain Research, 175, 110 - 126.

 

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