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Network: Computation in Neural Systems Volume 3, 1992 - Issue 2
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Original Article

Modelling Hebbian cell assemblies comprised of cortical neurons

A Lansner SANS—Studies of Artificial Neural Systems, Department of Numerical Analysis and Computing Science, Royal Institute of Technology, S-l00 44, Stockholm, Sweden
&
E Fransen SANS—Studies of Artificial Neural Systems, Department of Numerical Analysis and Computing Science, Royal Institute of Technology, S-l00 44, Stockholm, Sweden
Pages 105-119 | Received 17 Jul 1991, Published online: 09 Jul 2009

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Mikael Lundqvist, Martin Rehn, Mikael Djurfeldt & Anders Lansner. (2006) Attractor dynamics in a modular network model of neocortex. Network: Computation in Neural Systems 17:3, pages 253-276.
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A Sandberg, J Tegnér & A Lansner. (2003) A working memory model based on fast Hebbian learning. Network: Computation in Neural Systems 14:4, pages 789-802.
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A. Sandberg, A. Lansner, K.M. Petersson & Ekeberg.. (2002) A Bayesian attractor network with incremental learning. Network: Computation in Neural Systems 13:2, pages 179-194.
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A C Smith, X B Wu & W B Levy. (2000) Controlling activity fluctuations in large, sparsely connected random networks. Network: Computation in Neural Systems 11:1, pages 63-81.
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Erik Fransén & Anders Lansner. (1998) A model of cortical associative memory based on a horizontal network of connected columns. Network: Computation in Neural Systems 9:2, pages 235-264.
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Wolfgang Maass & Thomas Natschläger. (1997) Networks of spiking neurons can emulate arbitrary Hopfield nets in temporal coding. Network: Computation in Neural Systems 8:4, pages 355-371.
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Martin W Simmen, Alessandro Treves & Edmund T Rolls. (1996) Pattern retrieval in threshold-linear associative nets. Network: Computation in Neural Systems 7:1, pages 109-122.
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Erik Fransén & Anders Lansner. (1995) Low spiking rates in a population of mutually exciting pyramidal cells. Network: Computation in Neural Systems 6:2, pages 271-288.
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Daniel Miner & Christian Tetzlaff. (2020) Hey, look over there: Distraction effects on rapid sequence recall. PLOS ONE 15:4, pages e0223743.
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Mariana Carasatorre & Víctor Ramírez-Amaya. 2013. Neurogenesis and Neural Plasticity. Neurogenesis and Neural Plasticity 73 115 .
J. M. Hurtado. 2009. From Attention to Goal-Directed Behavior. From Attention to Goal-Directed Behavior 165 185 .
Michael E. Hasselmo & Chantal E. Stern. (2006) Mechanisms underlying working memory for novel information. Trends in Cognitive Sciences 10:11, pages 487-493.
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A Sandberg, J Tegnér & A Lansner. (2003) A working memory model based on fast Hebbian learning. Network: Computation in Neural Systems 14:4, pages 789-802.
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Anders Lansner, Erik Fransén & Anders Sandberg. (2003) Cell assembly dynamics in detailed and abstract attractor models of cortical associative memory. Theory in Biosciences 122:1, pages 19-36.
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A Smith, X Wu & W Levy. (2000) Controlling activity fluctuations in large, sparsely connected random networks. Network: Computation in Neural Systems 11:1, pages 63-81.
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Erik Fransén & Anders Lansner. (1998) A model of cortical associative memory based on a horizontal network of connected columns. Network: Computation in Neural Systems 9:2, pages 235-264.
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Wolfgang Maass & Thomas Natschläger. (1997) Networks of spiking neurons can emulate arbitrary Hopfield nets in temporal coding. Network: Computation in Neural Systems 8:4, pages 355-371.
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Sherman P. Wiebe, Ursula V. St�ubli & Jos� Ambros-Ingerson. (1997) Short-term reverberant memory model of hippocampal field CA3. Hippocampus 7:6, pages 656-665.
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Martin W Simmen, Alessandro Treves & Edmund T Rolls. (1996) Network: Computation in Neural Systems 7:1, pages 109-122.
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Daniel J. Amit. (2010) Empirical and theoretical active memory: The proper context. Behavioral and Brain Sciences 18:4, pages 645-657.
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J. J. Wright. (2010) How do local reverberations achieve global integration?. Behavioral and Brain Sciences 18:4, pages 644-645.
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Frank der van Velde. (2010) Association and computation with cell assemblies. Behavioral and Brain Sciences 18:4, pages 643-644.
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Josef P. Rauschecker. (2010) Reverberations of Hebbian thinking. Behavioral and Brain Sciences 18:4, pages 642-643.
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Maartje E. J. Raijmakers & Peter C. M. Molenaar. (2010) How to decide whether a neural representation is a cognitive concept?. Behavioral and Brain Sciences 18:4, pages 641-642.
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Friedemann Pulvermüller & Hubert Preissl. (2010) Local or transcortical assemblies? Some evidence from cognitive neuroscience. Behavioral and Brain Sciences 18:4, pages 640-641.
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Jean Petitot. (2010) The problems of cognitive dynamical models. Behavioral and Brain Sciences 18:4, pages 640-640.
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Masahiko Morita. (2010) Another ANN model for the Miyashita experiments. Behavioral and Brain Sciences 18:4, pages 639-640.
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Peter M. Milner. (2010) Attractors – don't get sucked in. Behavioral and Brain Sciences 18:4, pages 638-639.
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Anders Lansner & Erik Fransén. (2010) Distributed cell assemblies and detailed cell models. Behavioral and Brain Sciences 18:4, pages 637-638.
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David C. Krakauer & Alasdair I. Houston. (2010) An evolutionary perspective on Hebb's reverberatory representations. Behavioral and Brain Sciences 18:4, pages 636-637.
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Wolfgang Klimesch. (2010) The functional meaning of reverberations for sensoric and contextual encoding. Behavioral and Brain Sciences 18:4, pages 636-636.
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Michael Hucka, Mark Weaver & Stephen Kaplan. (2010) Hebb's accomplishments misunderstood. Behavioral and Brain Sciences 18:4, pages 635-636.
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Ralph E. Hoffman. (2010) Additional tests of Amit's attractor neural networks. Behavioral and Brain Sciences 18:4, pages 634-635.
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Morris W. Hirsch. (2010) Mathematics of Hebbian attractors. Behavioral and Brain Sciences 18:4, pages 633-634.
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Joaquin M. Fuster. (2010) Not the module does memory make – but the network. Behavioral and Brain Sciences 18:4, pages 631-633.
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Walter J. Freeman. (2010) The Hebbian paradigm reintegrated: Local reverberations as internal representations. Behavioral and Brain Sciences 18:4, pages 631-631.
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Shimon Edelman. (2010) How representation works is more important than what representations are. Behavioral and Brain Sciences 18:4, pages 630-631.
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G. J. Dalenoort & P. H. de Vries. (2010) What's in a cell assembly?. Behavioral and Brain Sciences 18:4, pages 629-630.
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Eric Chown. (2010) Reverberation reconsidered: On the path to cognitive theory. Behavioral and Brain Sciences 18:4, pages 628-629.
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Elie Bienenstock & Stuart Geman. (2010) Where the adventure is. Behavioral and Brain Sciences 18:4, pages 627-628.
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Ehud Ahissar. (2010) Are single-cell data sufficient for testing neural network models?. Behavioral and Brain Sciences 18:4, pages 626-627.
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Daniel J. Amit. (2010) The Hebbian paradigm reintegrated: Local reverberations as internal representations. Behavioral and Brain Sciences 18:4, pages 617-626.
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Erik Fransén & Anders Lansner. (1995) Low spiking rates in a population of mutually exciting pyramidal cells. Network: Computation in Neural Systems 6:2, pages 271-288.
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