Abeles M (1991) Corticonics. Cambridge University Press, New York, NY. doi:10.1017/CBO9780511574566
Abernethy M, Coney J (1993) Associative priming in the hemispheres as a function of SOA. Neuropsychologia 31(12):1397–1409
Amit DJ, Brunel N, Tsodyks MV (1994) Correlations of cortical hebbian reverberations: theory versus experiment. J Neurosci 14(11):6435–6445
Amit DJ, Brunel N (1997) Model of global spontaneous activity and local structured activity during delay periods in the cerebral cortex. Cereb Cortex 7(3):237–252
Amit DJ, Bernacchia A, Yakovlev V (2003) Multiple-object working memory—a model for behavioral performance. Cereb Cortex 13(5):435–443
Anderson JR (1976) Language, memory, and thought. Lawrence Erlbaum, Oxford
Anderson JR (1983a) Retrieval of information from long-term memory. Science 220(4592):25–30
Anderson JR (1983b) A spreading activation theory of memory. J Verbal Learn Verbal Behav 22(3):261–295
Arnott WL, Chenery HJ, Copland DA, Murdoch BE, Silburn PA (2003) The effect of backward masking on direct and indirect semantic priming in patients with Parkinson’s disease and in healthy individuals. Brain Lang 87:101–102
Balota DA, Paul ST (1996) Summation of activation: evidence from multiple primes that converge and diverge within semantic memory. J Exp Psychol Learn Mem Cogn 22(4):827–845
Becker S, Moscovitch M, Behrmann M, Joordens S (1997) Long-term semantic priming: a computational account and empirical evidence. J Exp Psychol Learn Mem Cogn 23(5):1059–1082
Beeman M, Friedman RB, Grafman J, Perez E (1994) Summation priming and coarse semantic coding in the right hemisphere. J Cogn Neurosci 6(1):26–45
Bennett DJ, McEvoy CL (1999) Mediated priming in younger and older adults mediated priming in younger and older adults. Exp Aging Res 25:141–159
Bermeitinger C, Wentura D, Frings C (2011) How to switch on and switch off semantic priming effects for natural and artifactual categories: activation processes in category memory depend on focusing specific feature dimensions. Psychon Bull Rev 8:579–585
Bernacchia A, La Camera G, Lavigne F (2014) A latch on priming. Front Psychol 5:869. doi:10.3389/fpsyg.2014.00869
Bliss TV, Collingridge GL (1993) A synaptic model of memory: long-term potentiation in the hippocampus. Nature 361(6407):31–39
Bliss TV, Lomo T (1973) Long-lasting potentiation of synaptic transmission in the dentate area of the anaesthetized rabbit following stimulation of the perforant path. J Physiol 232(2):331–356
Bourjaily M, Miller P (2011a) Excitatory, inhibitory, and structural plasticity produce correlated connectivity in random networks trained to solve paired-stimulus tasks. Front Comput Neurosci 5(37). doi:10.3389/fncom.2011.00037
Bourjaily M, Miller P (2011b) Synaptic plasticity and connectivity requirements to produce stimulus-pair specific responses in recurrent networks of spiking neurons. PLoS Comput Biol 7(2):e1001091. doi:10.1371/journal.pcbi.1001091
Bourjaily M, Miller P (2012) Dynapic afferent synapses to decision-making networks improve performance in tasks requiring stimulus association and discrimination. J Neurophysiol 108:513–527
Braitenberg V, Schütz A (1991) Anatomy of the Cortex. Springer-Verlag, Berlin. doi:10.1007/978-3-662-02728-8
Brodeur DA, Lupker SJ (1994) Investigating the effects of multiple primes: an analysis of theoretical mechanisms. Psychol Res 57(1):1–14
Brunel N (1996) Hebbian learning of context in recurrent neural networks. Neural Comput 8:1677–1710
Brunel N, Latham PE (2003) Firing rate of the noisy quadratic integrate-and-fire neuron. Neural Comput 15(10):2281–2306
Brunel N, Lavigne F (2009) Semantic priming in a cortical network model. J Cogn Neurosci 21(12):2300–2319
Brunel N, Wang X-J (2001) Effects of neuromodulation in a cortical network model of object working memory dominated by recurrent inhibition. J Comput Neurosci 11(1):63–85
Brunel N, Carusi F, Fusi S (1998) Slow stochastic Hebbian learning of classes of stimuli in a recurrent neural network. Network 9:123–152
Chwilla DJ, Kolk HHJ (2005) Accessing world knowledge: evidence from N400 and reaction time priming. Cogn Brain Res 25:589–606
Chwilla DJ, Kolk HHJ, Mulder G (2000) Mediated priming in the lexical decision task: evidence from event-related potentials and reaction time. J Mem Lang 42:314–341
Coney J (2002) The effect of associative strength on priming in the cerebral hemispheres. Brain Cogn 50(2):234–241
Cree GS, McRae K (2003) Analyzing the factors underlying the structure and computation of the meaning of chipmunk, cherry, chisel, cheese, and cello (and many other such concrete nouns). J Exp Psychol Gen 132:163–201
Cree GS, McRae K, McNorgan C (1999) An attractor model of lexical conceptual processing: simulating semantic priming. Cogn Sci 23(3):371–414
Curti E, Mongillo G, La Camera G, Amit DJ (2004) Mean field and capacity in realistic networks of spiking neurons storing sparsely coded random memories. Neural Comput 16:2597–2637
DeLong KA, Urbach TP, Kutas M (2005) Probabilistic word pre-activation during language comprehension inferred from electrical brain activity. Nat Neurosci 8(8):1117–1121
Erickson CA, Desimone R (1999) Responses of macaque perirhinal neurons during and after visual stimulus association learning. J Neurosci 19(23):10404–10416
Ermentrout GB, Kopell N (1986) Parabolic bursting in an excitable system coupled with a slow oscillation. SIAM J Appl Math 46:233–253
Faust M, Kahana A (2002) Priming summation in the cerebral hemispheres: evidence from semantically convergent and semantically divergent primes. Neuropsychologia 40(7):892–901
Faust M, Lavidor M (2003) Semantically convergent and semantically divergent priming in the cerebral hemispheres: lexical decision and semantic judgment. Cogn Brain Res 17(3):585–597
Fiser J (2009) Perceptual learning and representational learning in humans and animals. Learn Behav 37(2):141–153. doi:10.3758/LB.37.2
Fiser J, Aslin RN (2001) Unsupervised statistical learning of higher-order spatial structures from visual scenes. Psychol Sci 12:499–504
Fiser J, Aslin RN (2005) Encoding multielement scenes: statistical learning of visual feature hierarchies. J Exp Psychol Gen 134:521–537
Frishkoff GA (2007) Hemispheric differences in strong versus weak semantic priming: evidence from event-related brain potentials. Brain Lang 100(1):23–43
Fusi S, Asaad WF, Miller EK, Wang XJ (2007) A neural circuit model of flexible sensorimotor mapping: learning and forgetting on multiple timescales. Neuron 54:319–333. doi:10.1016/j.neuron.2007.03.017
Fuster JM (2001) The prefrontal cortex—an update: time is of the essence. Neuron 30(2):319–333
Fuster JM, Alexander GE (1971) Neuron activity related to short-term memory. Science 173:652–654.
Gollwitzer PM, Kinney RF (1989) Effects of deliberative and implemental mind-sets on illusion of control. J Pers Soc Psychol 56:531–542
Govindarajan A, Israely I, Huang SY, Tonegawa S (2011) The dendritic branch is the preferred integrative unit for protein synthesis-dependent LTP. Neuron 69(1):132–146
Haarmann H, Usher M (2001) Maintenance of semantic information in capacity-limited item short-term memory. Psychon Bull Rev 8(3):568–578
Hagoort P, Hald L, Bastiaansen M, Petersson KM (2004) Integration of word meaning and world knowledge in language comprehension. Science 304(5669):438–441
Hald LA, Steenbeek-Planting EG, Hagoort P (2007) The interaction of discourse context and world knowledge in online sentence comprehension. Evidence from the N400. Brain Res 1146:210–218
Hebb DO (1949) The organization of behavior: a neuropsychological theory. Wiley, New York
Hill H, Strube M, Roesch-Ely D, Weisbrod M (2002) Automatic vs. controlled processes in semantic priming—differentiation by event-related potentials. Int J Psychophysiol 44:197–218
Hutchison KA (2003) Is semantic priming due to association strength or feature overlap? A microanalytic review. Psychon Bull Rev 10:785–813
Hutchinson A, Whitman RD, Abeare C, Raiter J (2003) The unification of mind: integration of hemispheric semantic processing. Brain Lang 87(3):361–368
Kamide Y, Altmann G, Haywood L (2003) The time-course of prediction in incremental sentence processing: evidence from anticipatory eye movements. J Mem Lang 49(1):133–156
Khalkhali S, Wammes J, McRae K (2012) Integrating words that refer to typical sequences of events. Can J Exp Psychol 66(2):106–114. doi:10.1037/a0027369
Kiefer M (2007) Top-down modulation of unconscious “automatic” processes: a gating framework. Adv Cogn Psychol 3:289–306
Kiefer M, Martens U (2010) Attentional sensitization of unconscious cognition: task sets modulate subsequent masked semantic priming. J Exp Psychol General 139:464–4889
Kiefer M, Ahlegian M, Spitzer M (2005) Working memory capacity, indirect semantic priming, and stroop interference: pattern of interindividual prefrontal performance differences in healthy volunteers. Neuropsychology 19(3):332–344
Kutas M, DeLong KA, Smith NJ (2011) A look around at what lies ahead: prediction and predictability in language processing. In: Bar M (ed) Predictions in the brain: using our past to generate a future. Oxford Scholarship Online, Oxford, pp 190–207. doi:10.1093/acprof:oso/9780195395518.003.0065
Landauer TK, Foltz PW, Laham D (1998) An introduction to latent semantic analysis. Discourse Process 25:259–284
Lavigne F (2004) AIM networks: autoincursive memory networks for anticipation toward learned goals. Int J Comput Anticip Syst 8:74–95
Lavigne F, Darmon N (2008) Dopaminergic neuromodulation of semantic priming in a cortical network model. Neuropsychologia 46(13):3074–3087
Lavigne F, Denis S (2001) Attentional and semantic anticipations in recurrent neural networks. Int J Comput Anticip Syst 14:196–214
Lavigne F, Denis S (2002) Neural network modeling of learning of contextual constraints on adaptive anticipations. Int J Comput Anticip Syst 12:253–268
Lavigne F, Vitu F (1997) Time course of activatory and inhibitory semantic priming effects in visual word recognition. Int J Psycholinguist 13(3):311–349
Lavigne F, Dumercy L, Darmon N (2011) Determinants of multiple semantic priming: a meta-analysis and spike frequency adaptive model of a cortical network. J Cogn Neurosci 23(6):1447–1474
Lavigne F, Dumercy L, Chanquoy L, Mercier B, Vitu-Thibault F (2012) dynamics of the semantic priming shift: behavioral experiments and cortical network model. Cogn Neurodyn 6(6):467–483
Lavigne F, Chanquoy L, Dumercy L, Vitu F (2013) Early dynamics of the semantic priming shift. Adv Cogn Psychol 9(1):1–14
Lavigne F, Avnaïm F, Dumercy L (2014) Inter-synaptic learning of combination rules in a cortical network model. Front Psychol 5:842. doi:10.3389/fpsyg.2014.00842
Lavzin M, Rapoport S, Polsky A, Garion L, Schiller J (2012) Nonlinear dendritic processing determines angular tuning of barrel cortex neurons in vivo. Nature 490(7420):397–401. doi:10.1038/nature11451
Lerner I, Shriki O (2014) Internally and externally driven network transitions as a basis for automatic and strategic processes in semantic priming: theory and experimental validation. Front Psychol 5:314. doi:10.3389/fpsyg.2014.00314
Lerner I, Bentin S, Shriki O (2012) Spreading activation in an attractor network with latching dynamics: automatic semantic priming revisited. Cogn Sci 36(8):1339–1382. doi:10.1111/cogs
London M, Hausser M (2005) Dendritic computation. Annu Rev Neurosci 28:503–532
Longrée D, Mellet S (2013) Le motif: une unité phraséologique englobante? Etendre le champ de la phraséologie de la langue au discours. Langages 189:65–79
Longrée D, Luong X, Mellet S (2008) Les motifs: un outil pour la caractérisation topologique des textes. In: JADT 2008, Actes des 9èmes Journées internationales d’Analyse statistique des Données Textuelles. Lyon: Presses de l’ENS, vol 2, pp 733–744
Luka BJ, Van Petten C (2014) Prospective and retrospective semantic processing: prediction, time, and relationship strength in event-related potentials. Brain Lang 135:115–129
Masson MEJ (1995) A distributed memory model of semantic priming. J Exp Psychol Learn Mem Cogn 21(1):3–23
Masson MEJ, Besner D, Humphreys GW (1991) A distributed memory model of context effects in word identification. Lawrence Erlbaum Associates Inc, Hillsdale
McNamara TP (1992) Theories of priming I: associative distance and Lag. J Exp Psychol Learn Mem Cogn 8(6):1173–1190
McNamara TP, Altarriba J (1988) Depth of spreading activation revisited: semantic mediated priming occurs in lexical decisions. J Mem Lang 27(5):545–559
McRae K, de Sa VR, Seidenberg MS (1997) On the nature and scope of featural representations of word meaning. J Exp Psychol: Gen 126:99–130
McRae K, Ross BH (2004) Semantic memory: some insights from feature-based connectionist attractor networks. Elsevier Academic Press, San Diego
McRae K, Cree GS, Seidenberg MS, McNorgan C (2005) Semantic feature production norms for a large set of living and nonliving things. Behav Res Methods 37:547–559
Mellet S, Longrée D (2012) Légitimité d’une unité textométrique: le motif. In: JADT 2012, 11èmes Journées internationales d’Analyse statistique des Données Textuelles
Meyer DE, Schvaneveldt RW, Rudy MG (1972) Activation of lexical memory. Meeting of the Psychonomic Society, St Louis
Miyashita Y (1988) Neural discharges related to pictorial memory in the primate temporal cortex. Neurosci Res Suppl 7:S16
Miyashita Y, Chang HS (1988) Neuronal correlate of pictorial short-term memory in the primate temporal cortex. Nature 331(6151):68–70
Mizraji E, Lin J (2015) Modeling spatial-temporal operations with context-dependent associative memories. Cogn Neurodyn 9(5):523–534. doi:10.1007/s11571-015-9343-3
Mizraji E, Pomi A, Valle-Lisboa JC (2009) Dynamic searching in the brain. Cogn Neurodyn 3(401):414
Mongillo G, Amit DJ, Brunel N (2003) Retrospective and prospective persistent activity induced by Hebbian learning in a recurrent cortical network. Eur J Neurosci 18(7):2011–2024
Moritz S, Woodward TS, Kuppers D, Lausen A, Schickel M (2003) Increased automatic spreading of activation in thought-disordered schizophrenic patients. Schizophr Res 59:181–186
Moss HE, Hare ML, Day P, Tyler LK (1994) A distributed memory model of the associative boost in semantic priming. Connect Sci 6(4):413–427
Naya Y, Yoshida M, Miyashita Y (2001) Backward spreading of memory-retrieval signal in the primate temporal cortex. Science 291(5504):661–664
Naya Y, Yoshida M, Miyashita Y (2003) Forward processing of long-term associative memory in monkey inferotemporal cortex. J Neurosci 23(7):2861–2871
Neely JH (1991) Semantic priming effects in visual word recognition: a selective review of current findings and theories. In: Besner D, Humphreys GW (eds) Basic processes in reading: visual word recognition. Lawrence Erlbaum Associates Inc, Oxford, pp 264–336
Nelson DL, McEvoy CL, Schreiber T (1999) University of South Florida word association, rhyme and word fragment norms. Retrieved 8 Nov 2008, from http://cyber.acomp.usf.edu/FreeAssociation/
Plaut DC (1995) Semantic and associative priming in a distributed attractor network. Paper presented at the 17th annual conference of the cognitive science society, Pittsburgh
Plaut DC, Booth JR (2000) Individual and developmental differences in semantic priming: empirical and computational support for a single-mechanism account of Lexical processing. Psychol Rev 107(4):786–823
Poggio T, Edelman S (1990) A network that learns to recognize 3D objects. Nature 343:263–266
Rainer G, Rao SC, Miller EK (1999) Prospective coding for objects in primate prefrontal cortex. J Neurosci 19(13):5493–5505
Randall B, Moss HE, Rodd JM, Greer M, Tyler LK (2004) Distinctiveness and correlation in conceptual structure: behavioral and computational studies. J Exp Psychol Learn Mem Cogn 30(2):393–406
Renart A, Moreno R, de la Rocha J, Parga N, Rolls ET (2001) A model of the IT-PF network in object working memory which includes balanced persistent activity and tuned inhibition. Neurocomputing 38–40:1525–1531
Ricciardi LM (1977) Diffusion processes and related topics on biology. Springer, Berlin
Riesenhuber M, Poggio T (1999) Hierarchical models of object recognition in cortex. Nat Neurosci 2:1019–1025. doi:10.1038/14819
Rigotti M, Ben Dayan Rubin D, Wang XJ, Fusi S (2010a) Internal representation of task rules by recurrent dynamics: the importance of the diversity of neural responses. Front Comput Neurosci 4:24
Rigotti M, Ben Dayan Rubin D, Morrison SE, Salzman CD, Fusi S (2010b) Attractor concretion as a mechanism for the formation of context representations. Neuroimage 52(3):833–847
Rigotti M, Barak O, Warden MR, Wang XJ, Daw ND, Miller EK, Fusi S (2013) The importance of mixed selectivity in complex cognitive tasks. Nature 497(7451):585–590
Roitman JD, Shadlen MN (2002) Response of neurons in the lateral intraparietal area during a combined visual discrimination reaction time task. J Neurosci 22(21):9475–9489
Romani S, Amit DJ, Mongillo G (2006) Mean-field analysis of selective persistent activity in presence of short-term synaptic depression. J Comput Neurosci 20:201–217
Sakai K, Miyashita Y (1991) Neural organization for the long-term memory of paired associates. Nature 354(6349):152–155
Salem A (1986) Segments répétés et analyse statitsique des données textuelles. Histoire et mesure 1(2):5–28
Schvaneveldt RW, Meyer DE (1973) Retrieval and comparison processes in semantic memory. In: Kornblum S (ed) Attention and performance IV. Academic Press, New York
Sinclair J (1991) Corpus, concordance, collocation. Oxford University Press, Oxford
Spence DP, Owens KC (1990) Lexical co-occurrence and association strength. J Psycholing Res 19:317–330
Spitzer M, Braun U, Maier S, Hermle L, Maher BA (1993) Indirect semantic priming in schizophrenic patients. Schizophr Res 11:71–80
Spruston N (2008) Pyramidal neurons: dendritic structure and synaptic integration. Nat Rev Neurosci 9:206–221
Spruyt A, De Houwer J, Hermans D (2009) Modulation of automatic semantic priming by feature-specific attention allocation. J Memory Lang 61:37–54
Tuckwell HC (1988) Introduction to theoretical neurobiology. Cambridge University Press, Cambridge
Van Petten C (2014) Examining the N400 semantic context effect item-by-item: relationship to corpus-based measures of word co-occurrence. Int J Psychophysiol 94:407–419
Vergauwe E, Cowan N (2015) A common short-term memory retrieval rate may describe many cognitive procedures. Front Hum Neurosci 7(8):126. doi:10.3389/fnhum.2014.00126
Wang XJ (2002) Probabilistic decision making by slow reverberation in cortical circuits. Neuron 36(5):955–968
Weisbrod M, Maier S, Harig S, Himmelsbach U, Spitzer M (1998) Lateralised semantic and indirect semantic priming effects in people with schizophrenia. Br J Psychiatry 172:142–146
Whitney C, Grossman M, Kircher TT (2009) The influence of multiple primes on bottom-up and top-down regulation during meaning retrieval: evidence for 2 distinct neural networks. Cereb Cortex 19(11):2548–2560
Whitney C, Jefferies E, Kircher T (2010) Heterogeneity of the left temporal lobe in semantic representation and control: priming multiple versus single meanings of ambiguous words. Cereb Cortex 21(4):831–844
Willems RM, Frank SL, Nijhof AD, Hagoort P, van den Bosch A (2016) Prediction during natural language comprehension. Cereb Cortex 26(6):2506–2516
Wong KF, Wang XJ (2006) A recurrent network mechanism of time integration in perceptual decisions. J Neurosci 26(4):1314–1328
Xiumin L (2014) Signal integration on the dendrites of a pyramidal neuron model. Cogn Neurodyn 8(1):81–85. doi:10.1007/s11571-013-9252-2
