视觉搜索过程中的眼跳及其机制(4)
[15] Snyder J J, Kingstone A. Inhibition of return at multiple locations in visual search: When you see it and when you. The Quarterly Journal Of Experimental Psychology, 2001, 54(4): 1221~1237
[16] Godijn R, Theeuwes J. Inhibition-of-return and oculomotor interference.Vision Research, 2004,44(12): 1485~1492
[17] Müller H H, von Muhlenen A. Probing distractor inhibition in visual search: Inhibition of return. Journal of Experimental Psychology: Human Perception and Performance, 2000, 26(5): 1591~1605
, 百拇医药
[18] Juan C H, Shorter-Jacobi S M, Schall J D. Dissociation of spatial attention and saccade preparation. PNAS, 2004, 101(43): 15541~15544
[19] McPeek R M,Keller E L. Deficits in saccade target selection after temporary inactivation of superior colliculus. Nat Neurosci, 2004, 7(7):757~763
[20] Caspi A, Beutter B R, Eckstein M P. The time course of visual information accrual guiding eye movement decisions. PNAS, 2004, 101(35): 13086~13090
, 百拇医药
[21] Crevits L, Vandierendonck A. Gap Effect in Reflexive and Intentional Prosaccades. Neuropsychobiology, 2005, 51(1):39~44
[22] Treisman A, Gelade G. A feature integration theory of attention. Cognitive Psychology, 1980, 12(1): 97~136
[23] Theeuwes J, Kooi F L. Parallel search for a conjunction of contrast polarity and shape. Vision Research, 1994, 34(22): 3013~3016
[24] Treisman A, Sato S .Conjunction search revisited. Journal of Experimental Psychology: Human Perception & Performance, 1990, 16(3): 459~478
, http://www.100md.com
[25] Wolfe J M. Guided search 2.0: A revised model of visual search. Psychonomic Bulletin & Review, 1994, 2(1): 202~238
[26] Pomplun M, Shen J, Reingold E M. Area activation: A computational model of saccadic selectivity in visual search. Cognitive Science, 2003, 27(2): 299~312
[27] Bullier J, Schall J D, Morel A. Functional streams in occipito-frontal connections in the monkey. Behav Brain Res, 1996, 76(1-2): 89~97
, 百拇医药
[28] Tobler P N, Muri R M. Role of human frontal and supplementary eye fields in double step saccades. Neuroreport, 2002, 13(2): 253~255
[29] Murthy A, Thompson K G, Schall J D. Dynamic dissociation of visual selection from saccade programming in frontal eye field. J Neurophysiol, 2001, 86(5): 2634~2637
[30] Muggleton N G, Juan C H, Cowey A, Walsh V. Human Frontal Eye Fields and Visual Search. Journal of neurophysiology, 2003, 89: 3340~3343
, 百拇医药
[31] Corbetta M, Shulman G L. Control of goal - directed and stimulus -driven attention in the brain. Nature Reviews Neuroscience, 2002, 3(3): 201~215
[32] Krauzlis R J, Liston D, Carello C D. Target selection and the superior colliculus: goals, choices and hypotheses. Vision Research, 2004, 44(12): 1445~1451
[33] Kennard C, Mannan S K, Nachev P. Cognitive processes in saccade generation .Annals of the New York Academy of Sciences, 2005, 1039: 176~83
, http://www.100md.com
[34] 沈模卫,高涛,刘利得,李鹏. 内源性眼跳前的空间注意转移. 心理学报,2004,36(6):663~670
[35] Arai K, Keller E L. A model of the saccade-generating system that accounts for trajectory variations produced by competing visual stimuli. Biological Cybernetics, 2005, 92 (1): 21~37
[36] Thompson K G, Bichot N P. A visual salience map in the primate frontal eye field. Progress in brain research, 2005, 147: 251~262
[37] Curtis C E, Cole M W, Rao V Y, D'Esposito M. Canceling Planned Action: An fMRI Study of Countermanding Saccades. Cerebral Cortex, 2005, 15 (9): 1281~1289
[ 上 页 ]
, 百拇医药(任延涛 韩玉昌 隋 雪)
[16] Godijn R, Theeuwes J. Inhibition-of-return and oculomotor interference.Vision Research, 2004,44(12): 1485~1492
[17] Müller H H, von Muhlenen A. Probing distractor inhibition in visual search: Inhibition of return. Journal of Experimental Psychology: Human Perception and Performance, 2000, 26(5): 1591~1605
, 百拇医药
[18] Juan C H, Shorter-Jacobi S M, Schall J D. Dissociation of spatial attention and saccade preparation. PNAS, 2004, 101(43): 15541~15544
[19] McPeek R M,Keller E L. Deficits in saccade target selection after temporary inactivation of superior colliculus. Nat Neurosci, 2004, 7(7):757~763
[20] Caspi A, Beutter B R, Eckstein M P. The time course of visual information accrual guiding eye movement decisions. PNAS, 2004, 101(35): 13086~13090
, 百拇医药
[21] Crevits L, Vandierendonck A. Gap Effect in Reflexive and Intentional Prosaccades. Neuropsychobiology, 2005, 51(1):39~44
[22] Treisman A, Gelade G. A feature integration theory of attention. Cognitive Psychology, 1980, 12(1): 97~136
[23] Theeuwes J, Kooi F L. Parallel search for a conjunction of contrast polarity and shape. Vision Research, 1994, 34(22): 3013~3016
[24] Treisman A, Sato S .Conjunction search revisited. Journal of Experimental Psychology: Human Perception & Performance, 1990, 16(3): 459~478
, http://www.100md.com
[25] Wolfe J M. Guided search 2.0: A revised model of visual search. Psychonomic Bulletin & Review, 1994, 2(1): 202~238
[26] Pomplun M, Shen J, Reingold E M. Area activation: A computational model of saccadic selectivity in visual search. Cognitive Science, 2003, 27(2): 299~312
[27] Bullier J, Schall J D, Morel A. Functional streams in occipito-frontal connections in the monkey. Behav Brain Res, 1996, 76(1-2): 89~97
, 百拇医药
[28] Tobler P N, Muri R M. Role of human frontal and supplementary eye fields in double step saccades. Neuroreport, 2002, 13(2): 253~255
[29] Murthy A, Thompson K G, Schall J D. Dynamic dissociation of visual selection from saccade programming in frontal eye field. J Neurophysiol, 2001, 86(5): 2634~2637
[30] Muggleton N G, Juan C H, Cowey A, Walsh V. Human Frontal Eye Fields and Visual Search. Journal of neurophysiology, 2003, 89: 3340~3343
, 百拇医药
[31] Corbetta M, Shulman G L. Control of goal - directed and stimulus -driven attention in the brain. Nature Reviews Neuroscience, 2002, 3(3): 201~215
[32] Krauzlis R J, Liston D, Carello C D. Target selection and the superior colliculus: goals, choices and hypotheses. Vision Research, 2004, 44(12): 1445~1451
[33] Kennard C, Mannan S K, Nachev P. Cognitive processes in saccade generation .Annals of the New York Academy of Sciences, 2005, 1039: 176~83
, http://www.100md.com
[34] 沈模卫,高涛,刘利得,李鹏. 内源性眼跳前的空间注意转移. 心理学报,2004,36(6):663~670
[35] Arai K, Keller E L. A model of the saccade-generating system that accounts for trajectory variations produced by competing visual stimuli. Biological Cybernetics, 2005, 92 (1): 21~37
[36] Thompson K G, Bichot N P. A visual salience map in the primate frontal eye field. Progress in brain research, 2005, 147: 251~262
[37] Curtis C E, Cole M W, Rao V Y, D'Esposito M. Canceling Planned Action: An fMRI Study of Countermanding Saccades. Cerebral Cortex, 2005, 15 (9): 1281~1289
[ 上 页 ]
, 百拇医药(任延涛 韩玉昌 隋 雪)