首页 > 图书详情

奖赏对视觉选择性注意的调节及其神经机制 心理学类;专著 VIP

售价:¥66.64 ¥98
1人在读 |
0 评分
丛书名:
薛欣   社会科学文献出版社  2020-04 出版
ISBN:978-7-5201-6190-9

*温馨提示:此类商品为数字类产品,不支持退换货,不支持下载打印

图书简介 目录 参考文献 音频 视频
本书主要研究的是金钱奖赏对人类视觉选择性注意的调节及其认知神经机制,该选题属于近年来认知心理学的前沿研究课题和研究热点内容。 视觉选择性注意是人类大脑最基本、最重要的认知功能之一,可以让我们在复杂的视觉环境中有选择性的优先加工其中一部分视觉信息,同时忽略其他视觉信息。主流的视觉选择性注意模型把注意控制划分为两类——自上而下、目标驱动的注意控制和自下而上、刺激驱动的注意控制。前者取决于当前注意选择的目标,而后者取决于刺激的物理显著性。近年来研究发现,奖赏联结的刺激可以对注意选择产生非自主的干扰,该现象被称为奖赏驱动的注意捕获。然而,奖赏驱动的注意捕获发生的必要条件、与其他非自主的注意选择的异同、以及在顶叶的神经机制尚且不清。结合行为测试、眼动追踪(eye-tracking)、功能磁共振成像(fMRI)和经颅磁刺激(TMS)技术等研究方法,本书主要开展了以下三个研究课题: 研究一从现象产生的必要条件的角度,考察奖赏驱动的注意捕获。研究二从比较不同类型的选择历史,考察奖赏驱动的注意捕获。研究三从后部顶叶的神经机制的角度,考察奖赏驱动的注意捕获。
[展开]
  • 第一章 绪论
    1. 第一节 选择性注意的控制
    2. 第二节 奖赏与选择性注意
    3. 第三节 信息加工自动化程度、注意窗口与意识通达
    4. 第四节 研究问题的提出
    5. 第五节 本书的组织框架
  • 第二章 奖赏联结刺激选择优先性的注意和意识条件
    1. 引言
    2. 第一节 奖赏联结的颜色刺激的无意识加工
    3. 第二节 奖赏联结的线段刺激的无意识加工
    4. 第三节 奖赏驱动的注意捕获与当前集中注意
    5. 第四节 当前集中注意之外的奖赏捕获注意的空间特性
    6. 小结
  • 第三章 奖赏、惩罚和启动三类选择历史对早期和晚期外显注意的影响
    1. 引言
    2. 第一节 奖赏、惩罚和启动三类选择历史对早期和晚期外显注意的影响实验一
    3. 第二节 奖赏、惩罚和启动三类选择历史对早期和晚期外显注意的影响实验二
    4. 小结
  • 第四章 奖赏和物理显著性的后部顶叶神经机制
    1. 引言
    2. 第一节 经颅磁刺激实验:方法部分
    3. 第二节 经颅磁刺激实验:结果部分
    4. 小结
  • 第五章 奖赏驱动注意捕获机制讨论
    1. 第一节 奖赏相关的选择优先性的边界条件
    2. 第二节 奖赏等选择历史对早晚期注意选择的影响
    3. 第三节 奖赏显著性和物理显著性的后部顶叶机制
    4. 第四节 未来研究展望
    5. 第五节 研究结论
  • 致谢
[1]Anderson,A.K.,& Phelps,E.A. 2001. “Lesions of the human amygdala impair enhanced perception of emotionally salient events.” Nature,411(6835),305-309. [2]Anderson,B.A. 2013. “A value-driven mechanism of attentional selection.” Journal of Vision,13(3),103-104. [3]Anderson,B.A. 2016. “The attention habit:how reward learning shapes attentional selection.” Annals of the New York Academy of Sciences,1369(1),24-39. [4]Anderson,B.A. 2017. “Reward processing in the value-driven attention network:reward signals tracking cue identity and location.” Social Cognitive and Affective Neuroscience,12(3),461-467. [5]Anderson,B.A.,Faulkner,M.L.,Rilee,J.J.,Yantis,S.,& Marvel,C.L. 2013. “Attentional bias for nondrug reward is magnified in addiction.” Experimental and Clinical Psychopharmacology,21(6),499-506. [6]Anderson,B.A.,Kronemer,S.I.,Rilee,J.J.,Sacktor,N.,& Marvel,C.L. 2016. “Reward,attention,and HIV-related risk in HIV+individuals.” Neurobiology of Disease,92,157-165. [7]Anderson,B.A.,Kuwabara,H.,Wong,D.F.,Gean,E.G.,Rahmim,A.,Brasic,J.R.,George,N.,Frolov,B.,Counrtney,S.M.,Yantis,S. 2016. “The Role of Dopamine in Value-Based Attentional Orienting.” Current Biology,26(4),550-555. [8]Anderson,B.A.,Laurent,P.A.,& Yantis,S. 2011a. “Learned value magnifies salience-based attentional capture.” PLoS One,6(11),e27926. [9]Anderson,B.A.,Laurent,P.A.,& Yantis,S. 2011b. “Value-driven attentional capture.” Proceedings of the National Academy of Sciences,108(25),10367-10371. [10]Anderson,B.A.,Laurent,P.A.,& Yantis,S. 2014. “Value-driven attentional priority signals in human basal ganglia and visual cortex.” Brain Research,1587(1),88-96. [11]Anderson,B.A.,& Yantis,S. 2013. “Persistence of value-driven attentional capture.” Journal of Experimental Psychology:Human Perception and Performance,39(1),6-9. [12]Awh,E.,Belopolsky,A.V.,& Theeuwes,J. 2012. “Top-down versus bottom-up attentional control:a failed theoretical dichotomy.” Trends in Cognitive Sciences,16(8),437-443. [13]Baars,B.J. 1997. In the Theater of Consciousness:The Workspace of the Mind:Wiley. [14]Bacon,W.F.,& Egeth,H.E. 1994. “Overriding stimulus-driven attentional capture.” Perception & Psychophysics,55(5),485-496. [15]Balcetis,E.,Dunning,D.,& Granot,Y. 2015. “Subjective value determines initial dominance in binocular rivalry.” Journal of Experimental Social Psychology,48(1),122-129. [16]Barbaro,L.,Peelen,M.V.,& Hickey,C. 2017. “Valence,not utility,underlies reward-driven prioritization in human vision.” Journal of Neuroscience,37(43),10438-10450. [17]Bardi,L.,Kanai,R.,Mapelli,D.,& Walsh,V. 2013. “Direct current stimulation(tDCS)reveals parietal asymmetry in local/global and salience-based selection.” Cortex,49(3),850-860. [18]Beck,V.M.,Luck,S.J.,& Hollingworth,A. 2017. “Whatever you do,don’t look at the...:evaluating guidance by an exclusionary attentional template.” Journal of Experimental Psychology:Human Perception and Performance,44(4),645-662. [19]Belopolsky,A.V.,& Theeuwes,J. 2010. “No capture outside the attentional window.” Vision Research,50(23),2543-2550. [20]Belopolsky,A.V.,Zwaan,L.,Theeuwes,J.,& Kramer,A.F. 2007. “The size of an attentional window modulates attentional capture by color singletons.” Psychonomic Bulletin & Review,14(5),934-938. [21]Berridge,K.C.,& Robinson,T.E. 1998. “What is the role of dopamine in reward:hedonic impact,reward learning,or incentive salience?” Brain Research Reviews,28(3),309-369. [22]Berridge,K.C.,& Robinson,T.E. 2003. “Parsing reward.” Trends in Neurosciences,26(9),507-513. [23]Biederman,I.(1972). “Perceiving real-world scenes.” Science,177(4043),77-80. [24]Bisley,J.W.,& Goldberg,M.E. 2010. “Attention,intention,and priority in the parietal lobe.” Annual Review of Neuroscience,33,1-21. [25]Blake,R.,& Fox,R. 1974. “Adaptation to invisible gratings and the site of binocular rivalry suppression.” Nature,249(456),488-490. [26]Bona,S.,Herbert,A.,Toneatto,C.,Silvanto,J.,& Cattaneo,Z. 2014. “The causal role of the lateral occipital complex in visual mirror symmetry detection and grouping:an fMRI-guided TMS study.” Cortex,51,46-55. [27]Botvinick,M.,& Braver,T. 2015. “Motivation and cognitive control:from behavior to neural mechanism.” Annual Review of Psychology,66(1),83-113. [28]Brainard,D.H. 1997. “The psychophysics toolbox”. Spat Vis,10(4),433-436. [29]Bromberg-Martin,E.S.,& Hikosaka,O. 2009. “Midbrain dopamine neurons signal preference for advance information about upcoming rewards.” Neuron,63(1),119-126. [30]Brozzoli,C.,Ishihara,M.,Göbel,S.M.,Salemme,R.,Rossetti,Y.,& Farnè,A. 2008. “Touch perception reveals the dominance of spatial over digital representation of numbers.” Proceedings of the National Academy of Sciences,105(14),5644-5648. [31]Bucker,B.,& Theeuwes,J. 2016. “Appetitive and aversive outcome associations modulate exogenous cueing.” Attention,Perception,& Psychophysics,78(7),2253-2265. [32]Buschman,T.J.,& Miller,E.K. 2007. “Top-down versus bottom-up control of attention in the prefrontal and posterior parietal cortices.” Science,315(5820),1860-1862. [33]Carrasco,M. 2011. “Visual attention:the past 25 years”. Vision Research,51(13),1484-1525. [34]Chelazzi,L.,Eštočinová,J.,Calletti,R.,Gerfo,E.L.,Sani,I.,Della Libera,C.,& Santandrea,E. 2014. “Altering spatial priority maps via reward-based learning.” Journal of Neuroscience,34(25),8594-8604. [35]Chun,M.M.,& Jiang,Y. 1999. “Top-down attentional guidance based on implicit learning of visual covariation.” Psychological Science,10(4),360-365. [36]Corbetta,M.,& Shulman,G.L. 2002. “Control of goal-directed and stimulus-driven attention in the brain.” Nature Reviews Neuroscience,3(3),201-215. [37]Corbetta,M.,Patel,G.,& Shulman,G.L. 2008. “The reorienting system of the human brain:from environment to theory of mind.” Neuron,58(3),306-324. [38]Crick,F.,& Koch,C. 2003. “A framework for consciousness.” Nature Neuroscience,6(2),119-126. [39]Cunningham,C.A.,& Egeth,H.E. 2016. “Taming the white bear:initial costs and eventual benefits of distractor inhibition.” Psychological Science,27(4),476-485. [40]Dehaene,S.,Changeux,J.-P.,Naccache,L.,Sackur,J.,& Sergent,C. 2006. “Conscious,preconscious,and subliminal processing:a testable taxonomy.” Trends in Cognitive Sciences,10(5),204-211. [41]Dennett,D.C.,& Weiner,P. 1991. “Consciousness explained.” Philosophy & Phenomenological Research,53(4),889. [42]Desimone,R.,& Duncan,J. 1995. “Neural mechanisms of selective visual attention.” Annual Review of Neuroscience,18(1),193-222. [43]Deubel,H.,& Schneider,W.X. 1996. “Saccade target selection and object recognition:evidence for a common attentional mechanism.” Vision Research,36(12),1827-1837. [44]Engelmann,J.B.,& Pessoa,L. 2007. “Motivation sharpens exogenous spatial attention.” Emotion,7(3),668-674. [45]Egly,R.,Driver,J.,& Rafal,R.D. 1994. “Shifting visual attention between objects and locations:evidence from normal and parietal lesion subjects.” Journal of Experimental Psychology:General,123(2),161-177. [46]Failing,M.,Nissens,T.,Pearson,D.,Le Pelley,M.,& Theeuwes,J. 2015. “Oculomotor capture by stimuli that signal the availability of reward.” Journal of Neurophysiology,114(4),2316-2327. [47]Failing,M.,& Theeuwes,J. 2017. “Selection history:how reward modulates selectivity of visual attention.” Psychonomic Bulletin & Review,25(2),514-538. [48]Failing,M.F.,& Theeuwes,J. 2015. “Nonspatial attentional capture by previously rewarded scene semantics.” Visual Cognition,23(1-2),82-104. [49]Fang,F.,& He,S. 2005. “Cortical responses to invisible objects in the human dorsal and ventral pathways.” Nature Neuroscience,8(10),1380-1385. [50]Feldmann-Wüstefeld,T.,Brandhofer,R.,& Schubö,A. 2016. “Rewarded visual items capture attention only in heterogeneous contexts.” Psychophysiology,53(7),1063-1073. [51]Ferrante,O.,Patacca,A.,Di Caro,V.,Della Libera,C.,Santandrea,E.,& Chelazzi,L. 2017. “Altering spatial priority maps via statistical learning of target selection and distractor filtering.” Cortex,102,67-95. [52]Fockert,Rees,G.,Frith,C.,& Lavie,N. 2004. “Neural correlates of attentional capture in visual search.” J Cogn Neurosci,16(5),751-759. [53]Gaspelin,N.,Leonard,C.J.,& Luck,S.J. 2016. “Suppression of overt attentional capture by salient-but-irrelevant color singletons.” Attention Perception & Psychophysics,79(1),45-62. [54]Gayet,S.,Paffen,C.L.,Belopolsky,A.V.,Theeuwes,J.,& Van,d.S.S. 2016. “Visual input signaling threat gains preferential access to awareness in a breaking continuous flash suppression paradigm.” Cognition,149,77-83. [55]Gayet,S.,Stigchel,S.V.D.,& Paffen,C.L.E. 2014. “Breaking continuous flash suppression:competing for consciousness on the pre-semantic battlefield.” Frontiers in Psychology,5(5),460. [56]Gehring,W.J.,& Willoughby,A.R. 2002. “The medial frontal cortex and the rapid processing of monetary gains and losses.” Science,295(5563),2279-2282. [57]Geng,J.J. 2014. “Attentional mechanisms of distractor suppression.” Current Directions in Psychological Science,23(2),147-153. [58]Geng,J.J.,&Behrmann,M. 2005. “Spatial probability as an attentional cue in visual search.” Perception & Psychophysics,67(7),1252-1268. [59]Godijn,R.,& Theeuwes,J. 2002. “Programming of endogenous and exogenous saccades:evidence for a competitive integration model.” Journal of Experimental Psychology:Human Perception and Performance,28(5),1039-1054. [60]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(5),882-896. [61]Gong,M.,Jia,K.,& Li,S. 2017. “Perceptual competition promotes suppression of reward salience in behavioral selection and neural representation.” Journal of Neuroscience,37(26),6242-6252. [62]Grill-Spector,K.,Kourtzi,Z.,& Kanwisher,N. 2001. “The lateral occipital complex and its role in object recognition.” Vision Research,41(10-11),1409-1422. [63]Hickey,C.,Chelazzi,L.,& Theeuwes,J. 2010. “Reward changes salience in human vision via the anterior cingulate.” Journal of Neuroscience,30(33),11096-11103. [64]Hickey,C.,Kaiser,D.,& Peelen,M.V. 2015. “Reward guides attention to object categories in real-world scenes.” Journal of Experimental Psychology:General,144(2),264-273. [65]Hickey,C.,& Peelen,M.V. 2015. “Neural mechanisms of incentive salience in naturalistic human vision.” Neuron,85(3),512-518. [66]Hickey,C.,& Peelen,M.V. 2017. “Reward selectively modulates the lingering neural representation of recently attended objects in natural scenes.” Journal of Neuroscience,37(31),7297-7304. [67]Hodsoll,J.,Mevorach,C.,& Humphreys,G.W. 2009. “Driven to less distraction:rTMS of the right parietal cortex reduces attentional capture in visual search by eliminating inter-trial priming.” Cerebral Cortex,19(1),106-114. [68]Hoffman,J.E.,& Subramaniam,B. 1995. “The role of visual attention in saccadic eye movements.” Perception & Psychophysics,57(6),787-795. [69]Holmqvist,K.,Nyström,M.,Andersson,R.,Dewhurst,R.,Jarodzka,H.,& Van de Weijer,J. 2011. Eye Tracking:A Comprehensive Guide to Methods and Measures:OUP Oxford. [70]Holroyd,C.B.,Coles,M.,& Nieuwenhuis,S. 2002. “Medial prefrontal cortex and error potentials.” Science,296(5573),1610-1611. [71]Hsieh,P.-J.,Colas,J.T.,& Kanwisher,N. 2011. “Pop-out without awareness:unseen feature singletons capture attention only when top-down attention is available.” Psychological Science,22(9),1220-1226. [72]Huang,Y.Z.,Edwards,M.J.,Rounis,E.,Bhatia,K.P.,& Rothwell,J.C. 2005. “Theta burst stimulation of the human motor cortex.” Neuron,45(2),201-206. [73]Ipata,A.E.,Gee,A.L.,Gottlieb,J.,Bisley,J.W.,& Goldberg,M.E. 2006. “LIP responses to a popout stimulus are reduced if it is overtly ignored.” Nature Neuroscience,9(8),1071-1076. [74]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(10),1443-1458. [75]James,William.1890. The Principles of Psychology:Macmillan. [76]Jiang,Y.,Costello,P.,Fang,F.,Huang,M.,& He,S. 2006. “A gender-and sexual orientation-dependent spatial attentional effect of invisible images.” Proceedings of the National Academy of Sciences,103(45),17048-17052. [77]Jiang,Y.,Costello,P.,& He,S. 2007. “Processing of invisible stimuli:advantage of upright faces and recognizable words in overcoming interocular suppression.” Psychological Science,18(4),349-355. [78]Jonides,J. 1981. “Voluntary versus automatic control over the mind’s eye’s movement.” In J.Long & A.Baddeley(eds.),Attention and Performance:Lawrence Erlbaum Associates. [79]Jonides,J.,Naveh-Benjamin,M.,& Palmer,J. 1985. “Assessing automaticity.” Acta Psychologica,60(2-3),157-171. [80]Jonides,J.,& Yantis,S. 1988. “Uniqueness of abrupt visual onset in capturing attention.” Perception & Psychophysics,43(4),346-354. [81]Kahneman,D. 1973. Attention and Effort:Prentice-Hall. [82]Kahneman,D. 2011. Thinking,Fast and Slow:Macmillan. [83]Kahneman,D.,& Treisman,A. 1984. “Changing views of attention and automaticity.” In Raja Parasuraman,D.R.Pavies(eds),Varieties of Attention:Academic Press. [84]Kanai,R.,Dong,M.Y.,Bahrami,B.,& Rees,G. 2011. “Distractibility in daily life is reflected in the structure and function of human parietal cortex.” Journal of Neuroscience the Official Journal of the Society for Neuroscience,31(18),6620-6626. [85]Kastner,S.,& Ungerleider,L.G. 2000. “Mechanisms of visual attention in the human cortex.” Annual Review of Neuroscience,23(1),315-341. [86]Kelley,T.A.,& Yantis,S. 2010. “Neural correlates of learning to attend.” Frontiers in Human Neuroscience,4(4),216. [87]Kincade,J.M.,Abrams,R.A.,Astafiev,S.V.,Shulman,G.L.,& Corbetta,M. 2005. “An event-related functional magnetic resonance imaging study of voluntary and stimulus-driven orienting of attention.” Journal of Neuroscience the Official Journal of the Society for Neuroscience,25(18),4593-4604. [88]Kingstone,A.,& Klein,R.M. 1993. “Visual offsets facilitate saccadic latency:does predisengagement of visuospatial attention mediate this gap effect?” Journal of Experimental Psychology:Human Perception and Performance,19(6),1251-1265. [89]Kiss,M.,Driver,J.,& Eimer,M. 2009. “Reward priority of visual target singletons modulates event-related potential signatures of attentional selection.” Psychological Science,20(2),245-251. [90]Klein,R.M. 2000. “Inhibition of return.” Trends in Cognitive Sciences,4(4),138-147. [91]Koch,C.,& Tsuchiya,N. 2007. “Attention and consciousness:two distinct brain processes.” Trends in Cognitive Sciences,11(1),16-22. [92]Koch,C.,& Tsuchiya,N. 2012. “Attention and consciousness:related yet different.” Trends in Cognitive Sciences,16(2),103-105. [93]Kristjánsson,A. 2006. “Simultaneous priming along multiple feature dimensions in a visual search task.” Vision Research,46(16),2554-2570. [94]Lamme,V.A. 2003. “Why visual attention and awareness are different.” Trends in Cognitive Sciences,7(1),12-18. [95]Leathers,M.L.,& Olson,C.R. 2013. “In monkeys making value-based decisions,LIP neurons encode cue salience and not action value.” Science,340(6131),132-135. [96]LePelley,M.E.,Mitchell,C.J.,Beesley,T.,George,D.N.,& Wills,A.J. 2016. “Attention and associative learning in humans:An integrative review.” Psychological Bulletin,142(10),1111-1140. [97]LePelley,M.E.,Pearson,D.,Griffiths,O.,& Beesley,T. 2015. “When goals conflict with values:counterproductive attentional and oculomotor capture by reward-related stimuli.” Journal of Experimental Psychology:General,144(1),158-171. [98]Li,Y.,& Li,S. 2015. “Contour integration,attentional cuing,and conscious awareness:an investigation on the processing of collinear and orthogonal contours.” Journal of Vision,15(16):1-16. [99]Libera,C.D.,& Chelazzi,L. 2006. “Visual selective attention and the effects of monetary rewards.” Psychological Science,17(3),222-227. [100]Libera,C.D.,& Chelazzi,L. 2009. “Learning to attend and to ignore is a matter of gains and losses.” Psychological Science,20(6),778-784. [101]Lim,S.L.,Padmala,S.,& Pessoa,L. 2008. “Affective learning modulates spatial competition during low-load attentional conditions.” Neuropsychologia,46(5),1267-1278. [102]Maljkovic,V.,& Nakayama,K. 1994. “Priming of pop-out:I.Role of features.” Memory & Cognition,22(6),657-672. [103]Maljkovic,V.,& Nakayama,K. 1996. “Priming of pop-out:II.the role of position.” Perception & Psychophysics,58(7),977-991. [104]Maljkovic,V.,& Nakayama,K. 2000. “Priming of popout:Ⅲ.a short-term implicit memory system beneficial for rapid target selection.” Visual Cognition,7(5),571-595. [105]Maunsell,J.H. 2004. “Neuronal representations of cognitive state:reward or attention?” Trends in Cognitive Sciences,8(6),261-265. [106]Maunsell,J.H.R.,& Treue,S. 2006. “Feature-based attention in visual cortex.” Trends in Neurosciences,29(6),317-322. [107]McCoy,B.,& Theeuwes,J. 2016. “Effects of reward on oculomotor control.” Journal of Neurophysiology,116(5),2453-2466. [108]Meeter,M.,& Van der Stigchel,S. 2013. “Visual priming through a boost of the target signal:evidence from saccadic landing positions.” Attention,Perception,& Psychophysics,75(7),1336-1341. [109]Mevorach,C.,Hodsoll,J.,Allen,H.,Shalev,L.,& Humphreys,G. 2010. “Ignoring the elephant in the room:a neural circuit to downregulate salience.” Journal of Neuroscience the Official Journal of the Society for Neuroscience,30(17),6072-6079. [110]Mevorach,C.,Humphreys,G.W.,& Shalev,L. 2006. “Opposite biases in salience-based selection for the left and right posterior parietal cortex.” Nature Neuroscience,9(6),740-742. [111]Mevorach,C.,Humphreys,G.W.,& Shalev,L. 2009. “Reflexive and preparatory selection and suppression of salient information in the right and left posterior parietal cortex.” Journal of Cognitive Neuroscience,21(6),1204-1214. [112]Michal,A.L.,Lleras,A.,& Beck,D.M. 2014. “Relative contributions of task-relevant and task-irrelevant dimensions in priming of pop-out.” Journal of Vision,14(12),14. [113]Milstein,D.M.,& Dorris,M.C. 2007. “The influence of expected value on saccadic preparation.” Journal of Neuroscience,27(18),4810-4818. [114]Moher,J.,& Egeth,H.E. 2012. “The ignoring paradox:cueing distractor features leads first to selection,then to inhibition of to-be-ignored items.” Attention,Perception,& Psychophysics,74(8),1590-1605. [115]Mudrik,L.,Breska,A.,Lamy,D.,& Deouell,L.Y. 2011. “Integration without awareness:expanding the limits of unconscious processing.” Psychological Science,22(6),764-770. [116]Mulckhuyse,M.,Engelmann,J.B.,Djlg,S.,& Roelofs,K. 2017. “Right posterior parietal cortex is involved in disengaging from threat:a 1-Hz rTMS study.” Soc Cogn Affect Neurosci,12(11),1814-1822. [117]Munneke,J.,Belopolsky,A.V.,& Theeuwes,J. 2016. “Distractors associated with reward break through the focus of attention.” Attention Perception & Psychophysics,78(7),2213-2225. [118]Munneke,J.,Hoppenbrouwers,S.S.,& Theeuwes,J. 2015. “Reward can modulate attentional capture,independent of top-down set.” Attention Perception & Psychophysics,77(8),2540-2548. [119]Nardo,D.,Santangelo,V.,& Macaluso,E. 2011. “Stimulus-driven orienting of visuo-spatial attention in complex dynamic environments.” Neuron,69(5),1015-1028. [120]Nissens,T.,Failing,M.,& Theeuwes,J. 2016. “People look at the object they fear:oculomotor capture by stimuli that signal threat.” Cognition and Emotion,31(8),1707-1714. [121]Pasalar,S.,Ro,T.,& Beauchamp,M.S. 2010. “TMS of posterior parietal cortex disrupts visual tactile multisensory integration.” European Journal of Neuroscience,31(10),1783-1790. [122]Pavlov,I.P. 1927. Conditioned Reflexes:An Investigation of the Pysiological Activity of the Cerebral Cortex:Oxford University Press. [123]Pearson,D.,Osborn,R.,Whitford,T.J.,Failing,M.,Theeuwes,J.,& Le Pelley,M.E. 2016. “Value-modulated oculomotor capture by task-irrelevant stimuli is a consequence of early competition on the saccade map.” Attention,Perception,& Psychophysics,78(7),2226-2240. [124]Peck,C.J.,Jangraw,D.C.,Suzuki,M.,Efem,R.,& Gottlieb,J. 2009. “Reward modulates attention independently of action value in posterior parietal cortex.” Journal of Neuroscience the Official Journal of the Society for Neuroscience,29(36),11182-11191. [125]Pelli,D.G. 1997. “The VideoToolbox software for visual psychophysics:transforming numbers into movies.” Spatial Vision,10(4),437-442. [126]Pessoa,L. 2009. “How do emotion and motivation direct executive control?” Trends in Cognitive Sciences,13(4),160-166. [127]Pessoa,L.,& Adolphs,R. 2010. “Emotion processing and the amygdala:from a ‘low road’ to ‘many roads’ of evaluating biological significance.” Nature Reviews Neuroscience,11(11),773-783. [128]Pessoa,L.,Padmala,S.,Kenzer,A.,& Bauer,A. 2010. “Interactions between cognition and emotion during response inhibition.” Emotion,12(1),192-197. [129]Petersen,S.E.,& Posner,M.I. 2012. “The attention system of the human brain:20 years after.” Annual Review of Neuroscience,35,73-89. [130]Posner,M.I. 1980. “Orienting of attention.” Quarterly Journal of Experimental Psychology,32(1),3-25. [131]Posner,M.I.,& Petersen,S.E. 1990. “The attention system of the human brain.” Annual Review of Neuroscience,13(1),25-42. [132]Ptak,R. 2012. “The frontoparietal attention network of the human brain:action,saliency,and a priority map of the environment.” Neuroscientist,18(5),502-515. [133]Qi,S.,Zeng,Q.,Ding,C.,& Li,H. 2013. “Neural correlates of reward-driven attentional capture in visual search.” Brain Research,1532,32-43. [134]Qu,Z.,Hillyard,S.A.,& Ding,Y. 2017. “Perceptual learning induces persistent attentional capture by nonsalient shapes.” Cerebral Cortex,27(2),1512-1523. [135]Radel,R.,& Clément-Guillotin,C. 2012. “Evidence of motivational influences in early visual perception:hunger modulates conscious access.” Psychological Science,23(3),232-234. [136]Raio,C.M.,Carmel,D.,Carrasco,M.,& Phelps,E.A. 2012. “Nonconscious fear is quickly acquired but swiftly forgotten.” Current Biology,22(12),R477-R479. [137]Raymond,J.E.,& O’Brien,J.L. 2009. “Selective visual attention and motivation the consequences of value learning in an attentional blink task.” Psychological Science,20(8),981-988. [138]Reuter-Lorenz,P.A.,Hughes,H.C.,& Fendrich,R. 1991. “The reduction of saccadic latency by prior offset of the fixation point:an analysis of the gap effect.” Perception & Psychophysics,49(2),167-175. [139]Rothkirch,M.,Stein,T.,Sekutowicz,M.,& Sterzer,P. 2012. “A direct oculomotor correlate of unconscious visual processing.” Current Biology Cb,22(13),514-515. [140]Rothkirch M,Schmack K,Deserno L,Darmohray D,Sterzer P. 2014. “Attentional modulation of reward processing in the human brain.” [141]Sawaki,R.,Luck,S.J.,& Raymond,J.E. 2015. “How attention changes in response to incentives.” Journal of Cognitive Neuroscience,27(11),2229-2239. [142]Schmidt,L.J.,Belopolsky,A.V.,& Theeuwes,J. 2015a. “Attentional capture by signals of threat.” Cognition and Emotion,29(4),687-694. [143]Schmidt,L.J.,Belopolsky,A.V.,& Theeuwes,J. 2015b. “Potential threat attracts attention and interferes with voluntary saccades.” Emotion,15(3),329-338. [144]Schmidt,L.J.,Belopolsky,A.V.,& Theeuwes,J. 2016. “The time course of attentional bias to cues of threat and safety.” Cognition and Emotion,31(5),845-857. [145]Schultz,W. 2000. “Multiple reward signals in the brain.” Nature Reviews Neuroscience,1(3),199-207. [146]Schultz,W. 2015. “Neuronal reward and decision signals:from theories to data.” Physiological Reviews,95(3),853-951. [147]Schultz,W.,& Dickinson,A. 2000. “Neuronal coding of prediction errors.” Annual Review of Neuroscience,23(1),473-500. [148]Seaman,M.A.,Levin,J.R.,& Serlin,R.C. 1991. “New developments in pairwise multiple comparisons:some powerful and practicable procedures.” Psychological Bulletin,110(3),577-586. [149]Serences,J.T. 2008. “Value-based modulations in human visual cortex.” Neuron,60(6),1169-1181. [150]Serences,J.T.,Shomstein,S.,Leber,A.B.,Golay,X.,Egeth,H.E.,& Yantis,S. 2005. “Coordination of voluntary and stimulus-driven attentional control in human cortex.” Psychological Science,16(2),114-122. [151]Small,D.M.,Gitelman,D.,Simmons,K.,Bloise,S.M.,Parrish,T.,& Mesulam,M.-M. 2005. “Monetary incentives enhance processing in brain regions mediating top-down control of attention.” Cerebral Cortex,15(12),1855-1865. [152]Stein,T.,Senju,A.,Peelen,M.V.,& Sterzer,P. 2011. “Eye contact facilitates awareness of faces during interocular suppression.” Cognition,119(2),307-311. [153]Stein,T.,& Sterzer,P. 2012. “Not just another face in the crowd:detecting emotional schematic faces during continuous flash suppression.” Emotion,12(5),988-996. [154]Suzuki,M.,& Gottlieb,J. 2013. “Distinct neural mechanisms of distractor suppression in the frontal and parietal lobe.” Nature Neuroscience,16(1),98-139. [155]Tamietto,M.,& Gelder,B.D. 2010. “Neural bases of the non-conscious perception of emotional signals.” Nature Reviews Neuroscience,11(10),697-709. [156]Theeuwes,J. 1991. “Exogenous and endogenous control of attention:the effect of visual onsets and offsets.” Perception & Psychophysics,49(1),83-90. [157]Theeuwes,J. 1992. “Perceptual selectivity for color and form.” Perception & Psychophysics,51(6),599-606. [158]Theeuwes,J. 1994. “Stimulus-driven capture and attentional set:selective search for color and visual abrupt onsets.” Journal of Experimental Psychology:Human Perception and Performance,20(4),799-806. [159]Theeuwes,J. 2010. “Top-down and bottom-up control of visual selection:reply to commentaries.” Acta Psychologica,135(2),133-139. [160]Theeuwes,J. 2018. “Visual selection:usually fast and automatic;seldom slow and volitional.” Journal of Cognition,1(1),1-15. [161]Theeuwes,J.,& Belopolsky,A.V. 2012. “Reward grabs the eye:oculomotor capture by rewarding stimuli.” Vision Research,74,80-85. [162]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(5),379-385. [163]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 and Performance,25(6),1595-1608. [164]Theeuwes,J.,Olivers,C.N.,& Belopolsky,A. 2010. “Stimulus-driven capture and contingent capture.” Wiley Interdisciplinary Reviews:Cognitive Science,1(6),872-881. [165]Thorndike,E. 1911. Animal Intelligence:Experimental Studies. New York:Macmillan. [166]Tipper,S.P. 2001. “Does negative priming reflect inhibitory mechanisms?a review and integration of conflicting views.” The Quarterly Journal of Experimental Psychology Section A,54(2),321-343. [167]Tipper,S.P.,& Milliken,B. 1996. “Distinguishing between inhibition-based and episodic retrieval-based accounts of negative priming.” In Converging operations in the study of visual selective attention,edited by A.F.Kramer,M.G.H.Coles,and G.D.Logan,pp.337-363.American Psychological Association Press. [168]Tsal,Y.,& Makovski,T. 2006. “The attentional white bear phenomenon:the mandatory allocation of attention to expected distractor locations.” Journal of Experimental Psychology:Human Perception and Performance,32(2),351-363. [169]Tsuchiya,N.,& Koch,C. 2005. “Continuous flash suppression reduces negative afterimages.” Nature Neuroscience,8(8),1096-1101. [170]Uddin LQ. 2015. “Salience processing and insular cortical function and dysfunction.” Nat Rev Neurosci. 16(1):55-61. [171]Vaidya,A.R.,& Fellows,L.K. 2015. “Ventromedial frontal cortex is critical for guiding attention to reward-predictive visual features in humans.” Journal of Neuroscience,35(37),12813-12823. [172]Van der Stigchel,S.,& Meeter,M. 2017. “Negative versus positive priming:when are distractors inhibited?” Journal of Eye Movement Research,10(2),1-8. [173]Vogt,J.,Koster,E.H.,& De Houwer,J. 2017. “Safety first:instrumentality for reaching safety determines attention allocation under threat.” Emotion,17(3),528-537. [174]Von Helmholtz,H.1867. Handbuch der Physiologischen Optik:Voss. [175]Walker-Andrews,A.S. 1993.An odyssey:the course of perceptual development.” In Gibson,E.J.(eds.). An Odyssey in Learning and Perception:MIT Press. [176]Wang,B.,& Theeuwes,J. 2018. “Statistical regularities modulate attentional capture.” Journal of Experimental Psychology:Human Perception and Performance,44(1),13-17. [177]Wang,L.,Li,S.,Zhou,X.,& Theeuwes,J. 2018. “Stimuli that signal the availability of reward break into attentional focus.” Vision Research,144,20-28. [178]Wang,L.,Yu,H.,Hu,J.,Theeuwes,J.,Gong,X.,Xiang,Y.,Zhou,X. 2015. “Reward breaks through center-surround inhibition via anterior insula.” Human Brain Mapping,36(12),5233-5251. [179]Wang,L.,Yu,H.,& Zhou,X. 2013. “Interaction between value and perceptual salience in value-driven attentional capture.” Journal of Vision,13(5):1-13. [180]Wentura,D.,Müller,P.,& Rothermund,K. 2014. “Attentional capture by evaluative stimuli:gain-and loss-connoting colors boost the additional-singleton effect.” Psychonomic Bulletin & Review,21(3),701-707. [181]White,K.D.,Petry,H.M.,Riggs,L.A.,& Miller,J. 1978. “Binocular interactions during establishment of McCollough effects.” Vision Research,18(9),1201-1215. [182]Xue,X.,Zhou,X.,& Li,S.(2015). “Unconscious reward facilitates motion perceptual learning.” Visual Cognition,23(1-2),161-178. [183]Yan,Y.,Wei,R.,Qian,Z.,Jin,Z.,& Ling,L. 2016. “Differential roles of the dorsal prefrontal and posterior parietal cortices in visual search:a TMS study.” Scientific Report,6,30300. [184]Yang,Y.H.,& Yeh,S.L. 2011. “Accessing the meaning of invisible words.” Consciousness & Cognition,20(2),223-233. [185]Yantis,S.,& Jonides,J. 1990. “Abrupt visual onsets and selective attention:voluntary versus automatic allocation.” Journal of Experimental Psychology:Human Perception and Performance,16(1),121-134. [186]Zhang,X.,Zhaoping,L.,Zhou,T.,& Fang,F. 2012. “Neural activities in V1 create a bottom-up saliency map.” Neuron,73(1),183-192.
[展开]

相关推荐

发表评论

同步转发到先晓茶馆

发表评论

手机可扫码阅读