Semantic adaptation and competition during word comprehension.
暂无分享,去创建一个
[1] C. Wernicke. Der aphasische Symptomencomplex: Eine psychologische Studie auf anatomischer Basis , 1874 .
[2] H. Kucera,et al. Computational analysis of present-day American English , 1967 .
[3] P. Frank,et al. Boston Studies in the Philosophy of Science , 1968 .
[4] R. Schvaneveldt,et al. Facilitation in recognizing pairs of words: evidence of a dependence between retrieval operations. , 1971, Journal of experimental psychology.
[5] C. Wernicke. Der aphasische Symptomenkomplex , 1974 .
[6] J. H. Neely. Semantic priming and retrieval from lexical memory: Roles of inhibitionless spreading activation and limited-capacity attention. , 1977 .
[7] D. Swinney. Lexical access during sentence comprehension: (Re)consideration of context effects , 1979 .
[8] C. A. Becker. Semantic context effects in visual word recognition: An analysis of semantic strategies , 1980, Memory & cognition.
[9] A. L. Leiner,et al. Does the cerebellum contribute to mental skills? , 1986, Behavioral neuroscience.
[10] A. Buchman,et al. Word deafness: one hundred years later. , 1986, Journal of neurology, neurosurgery, and psychiatry.
[11] Dennis Norris,et al. Word recognition: Context effects without priming , 1986, Cognition.
[12] S. E. Blumstein,et al. Processing of lexical ambiguities in aphasia , 1987, Brain and Language.
[13] R. Ratcliff,et al. A retrieval theory of priming in memory. , 1988, Psychological review.
[14] Robin K. Morris,et al. Lexical ambiguity and fixation times in reading , 1988 .
[15] J. H. Neely,et al. Semantic priming in the lexical decision task: roles of prospective prime-generated expectancies and retrospective semantic matching. , 1989, Journal of experimental psychology. Learning, memory, and cognition.
[16] A. L. Leiner,et al. Reappraising the cerebellum: what does the hindbrain contribute to the forebrain? , 1989, Behavioral neuroscience.
[17] Karl J. Friston,et al. A PET study of word finding , 1991, Neuropsychologia.
[18] J. H. Neely. Semantic priming effects in visual word recognition: A selective review of current findings and theories. , 1991 .
[19] J. Cohen,et al. Context, cortex, and dopamine: a connectionist approach to behavior and biology in schizophrenia. , 1992, Psychological review.
[20] John N. Williams. Processing polysemous words in context: Evidence for interrelated meanings , 1992 .
[21] G. Humphreys,et al. Basic processes in reading : visual word recognition , 1993 .
[22] S. Petersen,et al. Practice-related changes in human brain functional anatomy during nonmotor learning. , 1994, Cerebral cortex.
[23] M. Masson. A distributed memory model of semantic priming. , 1995 .
[24] R. Buckner,et al. Dissociation of human prefrontal cortical areas across different speech production tasks and gender groups. , 1995, Journal of neurophysiology.
[25] R. Shillcock,et al. Proceedings of the Seventeenth Annual Conference of the Cognitive Science Society , 1995 .
[26] Karl J. Friston,et al. Analysis of fMRI Time-Series Revisited—Again , 1995, NeuroImage.
[27] David C. Plaut,et al. Semantic and Associative Priming in a Distributed Attractor Network , 1995 .
[28] M. D’Esposito,et al. Empirical Analyses of BOLD fMRI Statistics , 1997, NeuroImage.
[29] Karl J. Friston,et al. Cognitive Conjunction: A New Approach to Brain Activation Experiments , 1997, NeuroImage.
[30] M. D’Esposito,et al. A Trial-Based Experimental Design for fMRI , 1997, NeuroImage.
[31] M. Farah,et al. Role of left inferior prefrontal cortex in retrieval of semantic knowledge: a reevaluation. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[32] M. D’Esposito,et al. Empirical Analyses of BOLD fMRI Statistics , 1997, NeuroImage.
[33] Katherine S. Binder,et al. Contextual strength does not modulate the subordinate bias effect: Evidence from eye fixations and self-paced reading , 1998 .
[34] R. Salmelin,et al. Distinct time courses of word and context comprehension in the left temporal cortex. , 1998, Brain : a journal of neurology.
[35] A. Caramazza,et al. Domain-Specific Knowledge Systems in the Brain: The Animate-Inanimate Distinction , 1998, Journal of Cognitive Neuroscience.
[36] Irene P. Kan,et al. Verb generation in patients with focal frontal lesions: a neuropsychological test of neuroimaging findings. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[37] L. Cipolotti,et al. Dynamic aphasia: an inability to select between competing verbal responses? , 1998, Brain : a journal of neurology.
[38] M. D’Esposito,et al. The Inferential Impact of Global Signal Covariates in Functional Neuroimaging Analyses , 1998, NeuroImage.
[39] Colin M. Brown,et al. Understanding ambiguous words in sentence contexts: electrophysiological evidence for delayed contextual selection in Broca’s aphasia , 1998, Neuropsychologia.
[40] S. Engelborghs,et al. Functional anatomy, vascularisation and pathology of the human thalamus. , 1998, Acta neurologica Belgica.
[41] Irene P. Kan,et al. Effects of Repetition and Competition on Activity in Left Prefrontal Cortex during Word Generation , 1999, Neuron.
[42] T. Shallice,et al. Dual-Process Model in Semantic Priming: A Functional Imaging Perspective , 1999, NeuroImage.
[43] G. Kellas,et al. Strength of Discourse Context as a Determinant of the Subordinate Bias Effect , 1999, The Quarterly journal of experimental psychology. A, Human experimental psychology.
[44] D. Shankweiler,et al. An Event-related Neuroimaging Study Distinguishing Form and Content in Sentence Processing , 2000, Journal of Cognitive Neuroscience.
[45] M. Corbetta,et al. Voluntary orienting is dissociated from target detection in human posterior parietal cortex , 2000, Nature Neuroscience.
[46] E. Crone,et al. Dissociation of response conflict, attentional selection, and expectancy with functional magnetic resonance imaging. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[47] D. Poeppel,et al. Towards a functional neuroanatomy of speech perception , 2000, Trends in Cognitive Sciences.
[48] C. Price. The anatomy of language: contributions from functional neuroimaging , 2000, Journal of anatomy.
[49] J. Cohen,et al. Dissociating the role of the dorsolateral prefrontal and anterior cingulate cortex in cognitive control. , 2000, Science.
[50] D. Riva,et al. The cerebellum contributes to higher functions during development: evidence from a series of children surgically treated for posterior fossa tumours. , 2000, Brain : a journal of neurology.
[51] Jonathan D. Cohen,et al. Anterior cingulate and prefrontal cortex: who's in control? , 2000, Nature Neuroscience.
[52] N. Cohen,et al. The relative involvement of anterior cingulate and prefrontal cortex in attentional control depends on nature of conflict. , 2001, Brain research. Cognitive brain research.
[53] M. Botvinick,et al. Conflict monitoring and cognitive control. , 2001, Psychological review.
[54] E. Miller,et al. An integrative theory of prefrontal cortex function. , 2001, Annual review of neuroscience.
[55] C. Metzler,et al. Effects of left frontal lesions on the selection of context-appropriate meanings. , 2001, Neuropsychology.
[56] P. Deyn,et al. The Lateralized Linguistic Cerebellum: A Review and a New Hypothesis , 2001, Brain and Language.
[57] R J Wise,et al. Separate neural subsystems within 'Wernicke's area'. , 2001, Brain : a journal of neurology.
[58] K. Rayner,et al. The effect of prior disambiguating context on the comprehension of ambiguous words: Evidence from eye movements. , 2001 .
[59] Yukihiko Fujii,et al. Planum Temporale: Where Spoken and Written Language Meet , 2001, European Neurology.
[60] D. Heeger,et al. Neuronal Basis of the Motion Aftereffect Reconsidered , 2001, Neuron.
[61] D. Gorfein. On the consequences of meaning selection: Perspectives on resolving lexical ambiguity. , 2001 .
[62] L. Tyler,et al. Towards a distributed account of conceptual knowledge , 2001, Trends in Cognitive Sciences.
[63] G. Murphy,et al. The Representation of Polysemous Words , 2001 .
[64] Ekaterini Klepousniotou. The Processing of Lexical Ambiguity: Homonymy and Polysemy in the Mental Lexicon , 2002, Brain and Language.
[65] G. Murphy,et al. Paper has been my ruin: Conceptual relations of polysemous senses , 2002 .
[66] Sonja A. Kotz,et al. Modulation of the Lexical–Semantic Network by Auditory Semantic Priming: An Event-Related Functional MRI Study , 2002, NeuroImage.
[67] W. Marslen-Wilson,et al. Making Sense of Semantic Ambiguity: Semantic Competition in Lexical Access , 2002 .
[68] Thomas E. Nichols,et al. Nonparametric permutation tests for functional neuroimaging: A primer with examples , 2002, Human brain mapping.
[69] D. Plaut,et al. Representing task context: proposals based on a connectionist model of action , 2002, Psychological research.
[70] S. Blumstein,et al. An Event-Related fMRI Investigation of Implicit Semantic Priming , 2003, Journal of Cognitive Neuroscience.
[71] Colin M. Brown,et al. Understanding words in sentence contexts: The time course of ambiguity resolution , 2003, Brain and Language.
[72] A. Nobre,et al. The anatomy and time course of semantic priming investigated by fMRI and ERPs , 2003, Neuropsychologia.
[73] C. Fiebach,et al. The role of left inferior frontal and superior temporal cortex in sentence comprehension: localizing syntactic and semantic processes. , 2003, Cerebral cortex.
[74] John Jonides,et al. Dissociable neural mechanisms underlying response-based and familiarity-based conflict in working memory , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[75] F. Dick,et al. Voxel-based lesion–symptom mapping , 2003, Nature Neuroscience.
[76] Katie L. McMahon,et al. Brain activity during automatic semantic priming revealed by event-related functional magnetic resonance imaging , 2003, NeuroImage.
[77] S. Thompson-Schill. Neuroimaging studies of semantic memory: inferring “how” from “where” , 2003, Neuropsychologia.
[78] S. Sereno,et al. Context Effects in Word Recognition , 2003, Psychological science.
[79] Randi C. Martin,et al. Language processing: functional organization and neuroanatomical basis. , 2003, Annual review of psychology.
[80] Paul M. Matthews,et al. Left Inferior Prefrontal Cortex Activity Reflects Inhibitory Rather Than Facilitatory Priming , 2004, Journal of Cognitive Neuroscience.
[81] A. A. Wijers,et al. Activations of “motor” and other non-language structures during sentence comprehension , 2004, Brain and Language.
[82] Jonathan D. Cohen,et al. Conflict monitoring and anterior cingulate cortex: an update , 2004, Trends in Cognitive Sciences.
[83] Barry Giesbrecht,et al. Separable effects of semantic priming and imageability on word processing in human cortex. , 2004, Cerebral cortex.
[84] Cameron S Carter,et al. Prefrontal Cortex Guides Context-Appropriate Responding during Language Production , 2004, Neuron.
[85] Irene P. Kan,et al. Effect of name agreement on prefrontal activity during overt and covert picture naming , 2004, Cognitive, affective & behavioral neuroscience.
[86] A. Damasioa,et al. Neural systems behind word and concept retrieval , 2004 .
[87] Irene P. Kan,et al. Selection from perceptual and conceptual representations , 2004, Cognitive, affective & behavioral neuroscience.
[88] N. Dronkers,et al. Lesion analysis of the brain areas involved in language comprehension , 2004, Cognition.
[89] Emily B. Myers,et al. The Perception of Voice Onset Time: An fMRI Investigation of Phonetic Category Structure , 2005, Journal of Cognitive Neuroscience.
[90] Atsushi Matsumoto,et al. Linking semantic priming effect in functional MRI and event-related potentials , 2005, NeuroImage.
[91] David Poeppel,et al. The effects of homonymy and polysemy on lexical access: an MEG study. , 2005, Brain research. Cognitive brain research.
[92] G. Thierry,et al. Renewal of the neurophysiology of language: functional neuroimaging. , 2005, Physiological reviews.
[93] Matthew H. Davis,et al. The neural mechanisms of speech comprehension: fMRI studies of semantic ambiguity. , 2005, Cerebral cortex.
[94] Karl J. Friston,et al. Conjunction revisited , 2005, NeuroImage.
[95] J. Trueswell,et al. Cognitive control and parsing: Reexamining the role of Broca’s area in sentence comprehension , 2005, Cognitive, affective & behavioral neuroscience.
[96] R. Poldrack,et al. Dissociable Controlled Retrieval and Generalized Selection Mechanisms in Ventrolateral Prefrontal Cortex , 2005, Neuron.
[97] William D. Marslen-Wilson,et al. Cingulate control of fronto-temporal integration reflects linguistic demands: A three-way interaction in functional connectivity , 2005, NeuroImage.
[98] K. Grill-Spector,et al. Repetition and the brain: neural models of stimulus-specific effects , 2006, Trends in Cognitive Sciences.
[99] M. Kubicki,et al. Connectivity among semantic associates: An fMRI study of semantic priming , 2006, Brain and Language.
[100] Liina Pylkkänen,et al. The Representation of Polysemy: MEG Evidence , 2006, Journal of Cognitive Neuroscience.
[101] Sharon L. Thompson-Schill,et al. Role of the left inferior frontal gyrus in covert word retrieval: Neural correlates of switching during verbal fluency , 2006, Neuropsychologia.
[102] C. Petten,et al. Neural localization of semantic context effects in electromagnetic and hemodynamic studies , 2006, Brain and Language.
[103] N. Ramnani. The primate cortico-cerebellar system: anatomy and function , 2006, Nature Reviews Neuroscience.
[104] Marcel Adam Just,et al. From the SelectedWorks of Marcel Adam Just 2007 Lexical ambiguity in sentence comprehension , 2016 .
[105] Maryellen C. MacDonald,et al. Context-dependent interpretation of words: Evidence for interactive neural processes , 2007, NeuroImage.
[106] Remco J. Renken,et al. Semantic ambiguity processing in sentence context: Evidence from event-related fMRI , 2007, NeuroImage.
[107] K. Mcmahon,et al. Neural correlates of semantic priming for ambiguous words: An event-related fMRI study , 2007, Brain Research.
[108] Justin C. Hulbert,et al. Understanding words in context: The role of Broca's area in word comprehension , 2007, Brain Research.