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"2024-02-20", "oaFree" : false, "citationCount" : 0, "citationCountUnpublished" : 0, "citationCountWoOther" : 0, "independentCitCountWoOther" : 0, "doiCitationCount" : 0, "wosCitationCount" : 0, "scopusCitationCount" : 0, "independentCitationCount" : 0, "unhandledCitationCount" : 0, "citingPubCount" : 0, "independentCitingPubCount" : 0, "unhandledCitingPubCount" : 0, "citedPubCount" : 7, "citedCount" : 7, "referenceList" : "Aggleton, J.P., Brown, M.W., Episodic memory, amnesia, and the hippocampal-anterior thalamic axis (1999) Behav Brain Sci, 22, pp. 425-490; \n\nAlvarez, P., Squire, L.R., Memory consolidation and the medial temporal lobe: a simple network model (1994) Proc Natl Acad Sci USA, 91, pp. 7041-7045; \n\nAlyan, S., McNaughton, B.L., Hippocampectomized rats are capable of homing by path integration (1999) Behav Neurosci, 113, pp. 19-31; \n\nAmaral, D.G., Ishizuka, N., Claiborne, B., Neurons, numbers and the hippocampal network (1990) Prog Brain Res, 83, pp. 1-11; \n\nAmit, D.H., (1989) Modelling brain function, , Cambridge, UK: Cambridge University Press; \n\nAmit, D.J., (1992) Modeling brain function: the world of attractor neural networks, , Cambridge, UK: Cambridge University Press; \n\nBaddeley, A.D., Vargha-Khadem, F., Mishkin, M., Preserved recognition in a case of developmental amnesia: implications for the acquisition of semantic memory (2001) J Cogn Neurosci, 13, pp. 357-369; \n\nBarry, C., Lever, C., Hayman, R., Hartley, T., Burton, S., O'Keefe, J., Jeffery, K.J., Burgess, N., The boundary vector cell model of place cell firing and spatial memory (2006) Rev Neurosci, 17, pp. 71-97; \n\nBaxendale, S.A., Van Paesschen, W., Thompson, P.J., Duncan, J.S., Shorvon, S.D., Connelly, A., The relation between quantitative MRI measures of hippocampal structure and the intracarotid amo-barbital test (1997) Epilepsia, 38, pp. 998-1007; \n\nBaxter, M.G., Murray, E.A., Opposite relationship of hippocampal and rhinal cortex damage to delayed nonmatching-to-sample deficits in monkeys (2001) Hippocampus, 11, pp. 61-71; \n\nBecker, S., Burgess, N., A model of spatial recall, mental imagery and neglect (2001) Adv Neural Inform Proc Syst, 13, pp. 96-102; \n\nBienenstock, E.L., Cooper, L.N., Munro, P.W., Theory for the development of neuron selectivity: orientation specificity and binocular interaction in visual cortex (1982) J Neurosci, 2, pp. 32-48; \n\nBisiach, E., Luzzatti, C., Unilateral neglect of representational space (1978) Cortex, 14, pp. 129-133; \n\nBlair, H.T., Sharp, P.E., Anticipatory head direction signals in anterior thalamus: evidence for a thalamocortical circuit that integrates angular head motion to compute head direction (1995) J Neurosci, 15, pp. 6260-6270; \n\nBlair, H.T., Lipscomb, B.W., Sharp, P.E., Anticipatory time intervals of headdirection cells in the anterior thalamus of the rat: implications for path integration in the head-direction circuit (1997) J Neurophysiol, 78, pp. 145-159; \n\nBlair, H.T., Cho, J., Sharp, P.E., Role of the lateral mammillary nucleus in the rat head direction circuit: a combined single unit recording and lesion study (1998) Neuron, 21, pp. 1387-1397; \n\nBlum, K.I., Abbott, L.F., A model of spatial map formation in the hippocampus of the rat (1996) Neural Comput, 8, pp. 85-93; \n\nBose, A., Recce, M., Phase precession and phase locking of hippocampal pyramidal cells (2001) Hippocampus, 11, pp. 204-215; \n\nBostock, E., Muller, R.U., Kubie, J.L., Experience-dependent modifications of hippocampal place cell firing (1991) Hippocampus, 1, pp. 193-205; \n\nBrown, M.A., Sharp, P.E., Simulation of spatial learning in the Morris watermaze by a neural network model of the hippocampal formation and nucleus accumbens (1995) Hippocampus, 5, pp. 171-188; \n\nBrunel, N., Trullier, O., Plasticity of directional place fields in a model of rodent CA3 (1998) Hippocampus, 8, pp. 651-665; \n\nBurgess, N., Hartley, T., (2002) Neural information processing systems 14, pp. 165-172. , Cambridge, MA: MIT Press; \n\nBurgess, N., Hitch, G.J., Toward a network model of the articulatory loop (1992) J Mem Language, 31, pp. 429-460; \n\nBurgess, N., Hitch, G.J., Computational models of working memory: putting long term memory into context (2005) Trends Cogn Sci, 9, pp. 535-541; \n\nBurgess, N., O'Keefe, J., Neuronal computations underlying the firing of place cells and their role in navigation (1996) Hippocampus, 6, pp. 749-762; \n\nBurgess, N., O'Keefe, J., Recce, M., Using hippocampal 'place cells' for navigation, exploiting phase coding (1993) Neural information processing systems 5, pp. 929-936. , Hanson SE, Cowan JD, Giles CL, eds, San Francisco: Morgan Kaufmann; \n\nBurgess, N., Recce, M., O'Keefe, J., A model of hippocampal function (1994) Neural Netw, 7, pp. 1065-1081; \n\nBurgess, N., Jeffery, K.J., O'Keefe, J., Integrating hippocampal and parietal functions: a spatial point of view (1999) The hippocampal and parietal foundations of spatial cognition, pp. 3-29. , Burgess N, Jeffery KJ, O'Keefe J, eds, Oxford, UK: Oxford University Press; \n\nBurgess, N., Maguire, E., O'Keefe, J., The human hippocampus and spatial and episodic memory (2002) Neuron, 35, pp. 625-641; \n\nBurgess, N., Becker, S., King, J.A., O'Keefe, J., Memory for events and their spatial context: models and experiments (2001) Philos Trans R Soc Lond B Biol Sci, 356, pp. 1493-1503; \n\nBurgess, N., Maguire, E.A., Spiers, H.J., O'Keefe, J., A temporoparietal and prefrontal network for retrieving the spatial context of lifelike events (2001) Neuroimage, 14, pp. 439-453; \n\nCacucci, F., Lever, C., Wills, T.J., Burgess, N., O'Keefe, J., Theta-modulated place-by-direction cells in the hippocampal formation in the rat (2004) J Neurosci, 24, pp. 8265-8277; \n\nCohen, M.A., Grossberg, S., Absolute stability of global pattern formation and parallel memory storage by competitive neural networks (1983) IEEE Trans Syst Man Cybern, 13, pp. 815-821; \n\nConnelly, C.I., Burns, J.B., Weiss, R., Path planning using Laplace's equation (1990) Proceedings of the 1990 IEEE international conference on robotics and automation, pp. 2102-2106; \n\nCressant, A., Muller, R.U., Poucet, B., Failure of centrally placed objects to control the firing fields of hippocampal place cells (1997) J Neurosci, 17, pp. 2531-2542; \n\nCzurko, A., Hirase, H., Csicsvari, J., Buzsaki, G., Sustained activation of hippocampal pyramidal cells by 'space clamping' in a running wheel (1999) Eur J Neurosci, 11, pp. 344-352; \n\nDamasio, A.R., The brain binds entities and events by multiregional activation from convergence zones (1989) Neural Comput, 1, pp. 123-132; \n\nDavelaar, E.J., Goshen-Gottstein, Y., Ashkenazi, A., Usher, M., A context activation model of list memory: dissociating short-term from long-term recency effects (2005) Psychol Rev, 112, pp. 34-53; \n\nDayan, P., Navigating through temporal difference (1991) Neural information processing systems 3, pp. 464-470. , Lippman RP, Moody JE, Touretzky DS, eds San Mateo, CA: Morgan Kaufmann; \n\nDayan, P., Abbott, L.F., Computational neuroscience (2002), Cambridge, MA: MIT PressDeneve, S., Latham, P.E., Pouget, A., Efficient computation and cue integration with noisy population codes (2001) Nat Neurosci, 4, pp. 826-831; \n\nDominey, P.F., Arbib, M.A., A cortico-subcortical model for generation of spatially accurate sequential saccades (1992) Cereb Cortex, 2, pp. 153-175; \n\nDroulez, J., Berthoz, A., A neural network model of sensoritopic maps with predictive short-term memory properties (1991) Proc Natl Acad Sci USA, 88, pp. 9653-9657; \n\nEgorov, A.V., Hamam, B.N., Fransen, E., Hasselmo, M.E., Alonso, A.A., Graded persistent activity in entorhinal cortex neurons (2002) Nature, 420, pp. 173-178; \n\nEkstrom, A.D., Meltzer, J., McNaughton, B.L., Barnes, C.A., NMDA receptor antagonism blocks experience-dependent expansion of hippocampal \"place fields.\" (2001) Neuron, 31, pp. 631-638; \n\nEkstrom, A.D., Kahana, M.J., Caplan, J.B., Fields, T.A., Isham, E.A., Newman, E.L., Fried, I., Cellular networks underlying human spatial navigation (2003) Nature, 425, pp. 184-188; \n\nEtienne, A.S., Maurer, R., Seguinot, V., Path integration in mammals and its interaction with visual landmarks (1996) J Exp Biol, 199, pp. 201-209; \n\nFahlman, S., Lebiere, C., The cascade-correlation learning architecture (1990) Neural information processing systems 2, pp. 524-532. , Touretzky DS, edSan Francisco: Morgan Kaufmann; \n\nFenton, A.A., Csizmadia, G., Muller, R.U., Conjoint control of hippocampal place cell firing by two visual stimuli. I. The effects of moving the stimuli on firing field positions (2000) J Gen Physiol, 116, pp. 191-209; \n\nFoster, D.J., Morris, R.G., Dayan, P., A model of hippocampally dependent navigation, using the temporal difference learning rule (2000) Hippocampus, 10, pp. 1-16; \n\nFrank, L.M., Brown, E.N., Wilson, M., Trajectory encoding in the hippocampus and entorhinal cortex (2000) Neuron, 27, pp. 169-178; \n\nFrean, M.R., The Upstart algorithm: a method for constructing and training feedforward neural networks (1990) Neural Comput, 2, pp. 198-209; \n\nFuhs, M.C., Touretzky, D.S., Synaptic learning models of map separation in the hippocampus (2000) Neurocomputing, 32, pp. 379-384; \n\nFuhs, M.C., Touretzky, D.S., A spin glass model of path integration in rat medial entorhinal cortex (2006) J Neurosci, 26, pp. 4266-4276; \n\nFyhn, M., Molden, S., Witter, M.P., Moser, E.I., Moser, M.B., Spatial representation in the entorhinal cortex (2004) Science, 305, pp. 1258-1264; \n\nGaffan, D., Dissociated effects of perirhinal cortex ablation, fornix transection and amygdalectomy: evidence for multiple memory systems in the primate temporal lobe (1994) Exp Brain Res, 99, pp. 411-422; \n\nGallant, S.I., Three constructive algorithms for network learning (1986) Proceedings of the 8th annual conference of the Cognitive Science Society, pp. 652-660; \n\nGardiner, J.M., Java, R.I., (1993) Theories of memory, pp. 168-188. , Collins A, Gathercole S, Morris P, eds Hillsdale, NJ: Erlbaum; \n\nGardner-Medwin, A.R., The recall of events through the learning of associations between their parts (1976) Proc R Soc Lond B Biol Sci, 194, pp. 375-402; \n\nGeorgopoulos, A.P., Schwartz, A.B., Kettner, R.E., Neuronal population coding of movement direction (1986) Science, 233, pp. 1416-1419; \n\nGluck, M.A., Myers, C.E., Integrating behavioral and physiological models of hippocampal function (1996) Hippocampus, 6, pp. 643-653; \n\nGoodale, M.A., Milner, A.D., Separate visual pathways for perception and action (1992) Trends Neurosci, 15, pp. 20-25; \n\nGoodridge, J.P., Touretzky, D.S., Modeling attractor deformation in the rodent head-direction system (2000) J Neurophysiol, 83, pp. 3402-3410; \n\nGorchetchnikov, A., Hasselmo, M.E., A model of hippocampal circuitry mediating goal-driven navigation in a familiar environment (2002) Neurocomputing, 44-46, pp. 423-427; \n\nGothard, K.M., Skaggs, W.E., McNaughton, B.L., Dynamics of mismatch correction in the hippocampal ensemble code for space: interaction between path integration and environmental cues (1996) J Neurosci, 16, pp. 8027-8040; \n\nGraham, K.S., Hodges, J.R., Differentiating the roles of the hippocampus complex and the neocortex in long-term memory storage: evidence from the study of semantic dementia and Alzheimer's disease (1997) Neuropsychology, 11, pp. 77-89; \n\nGuazzelli, A., Bota, M., Arbib, M.A., Competitive Hebbian learning and the hippocampal place cell system: modeling the interaction of visual and path integration cues (2001) Hippocampus, 11, pp. 216-239; \n\nHafting, T., Fyhn, M., Molden, S., Moser, M.B., Moser, E.I., Microstructure of a spatial map in the entorhinal cortex (2005) Nature, 436, pp. 801-806; \n\nHarris, K.D., Henze, D.A., Hirase, H., Leinekugel, X., Dragoi, G., Czurko, A., Buzsaki, G., Spike train dynamics predicts theta-related phase precession in hippocampal pyramidal cells (2002) Nature, 417, pp. 738-741; \n\nHartley, T., Burgess, N., Lever, C., Cacucci, F., O'Keefe, J., Modeling place fields in terms of the cortical inputs to the hippocampus (2000) Hippocampus, 10, pp. 369-379; \n\nHasselmo, M.E., Fehlau, B.P., Differences in time course of ACh and GABA modulation of excitatory synaptic potentials in slices of rat hippocampus (2001) J Neurophysiol, 86, pp. 1792-1802; \n\nHasselmo, M.E., McClelland, J.L., Neural models of memory (1999) Curr Opin Neurobiol, 9, pp. 184-188; \n\nHasselmo, M.E., Schnell, E., Barkai, E., Dynamics of learning and recall at excitatory recurrent synapses and cholinergic modulation in rat hippocampal region CA3 (1995) J Neurosci, 15, pp. 5249-5262; \n\nHasselmo, M.E., Wyble, B.P., Free recall and recognition in a network model of the hippocampus: simulating effects of scopolamine on human memory function (1997) Behav Brain Res, 89, pp. 1-34; \n\nHasselmo, M.E., Wyble, B.P., Wallenstein, G.V., Encoding and retrieval of episodic memories: role of cholinergic and GABAergic modulation in the hippocampus (1996) Hippocampus, 6, pp. 693-708; \n\nHebb, D.O., (1949) The organisation of behavior, , New York: Wiley; \n\nHertz, J., Krogh, A., Palmer, R., (1990) Introduction to the theory of neural computation, , New York: Perseus Books; \n\nHinton, G.E., Sejnowski, T.J., (1999) Unsupervised learning, , Cambridge, MA: MIT Press; \n\nHirase, H., Czurko, H.H., Csicsvari, J., Buzsaki, G., Firing rate and thetaphase coding by hippocampal pyramidal neurons during'space clamping (1999) Eur J Neurosci, 11, pp. 4373-4380; \n\nHodgkin, A.L., Huxley, A.F., A quantitative description of membrane current and its application to conduction and excitation in nerve (1952) J Physiol, 117, pp. 500-544; \n\nHoldstock, J.S., Mayes, A.R., Cezayirli, E., Isaac, C.L., Aggleton, J.P., Roberts, N., A comparison of egocentric and allocentric spatial memory in a patient with selective hippocampal damage (2000) Neuropsychologia, 38, pp. 410-425; \n\nHoldstock, J.S., Mayes, A.R., Roberts, N., Cezayirli, E., Isaac, C.L., O'Reilly, R.C., Norman, K.A., Under what conditions is recognition spared relative to recall after selective hippocampal damage in humans (2002) Hippocampus, 12, pp. 341-351; \n\nHopfield, J.J., Neural networks and physical systems with emergent collective computational abilities (1982) Proc Natl Acad Sci USA, 79, pp. 2554-2558; \n\nHoppensteadt, F.C., (1986) An introduction to the mathematical properties of neurons, , Cambridge, UK: Cambridge University Press; \n\nHori, E., Tabuchi, E., Matsumura, N., Tamura, R., Eifuku, S., Endo, S., Nishijo, H., Ono, T., Representation of place by monkey hippocampal neurons in real and virtual translocation (2003) Hippocampus, 13, pp. 190-196; \n\nHoward, M., Kahana, M.J., A distributed representation of temporal context (2001) J Math Psychol, 46, pp. 269-299; \n\nHoward, M.W., Fotedar, M.S., Datey, A.V., Hasselmo, M.E., The temporal context model in spatial navigation and relational learning: toward a common explanation of medial temporal lobe function across domains (2005) Psychol Rev, 112, pp. 75-116; \n\nHuxter, J., Burgess, N., O' Keefe, J., Independent rate and temporal coding in hippocampal pyramidal cells (2003) Nature, 425, pp. 828-832; \n\nJensen, O., Lisman, J.E., Hippocampal CA3 region predicts memory sequences: accounting for the phase precession of place cells (1996) Learn Mem, 3, pp. 279-287; \n\nJensen, O., Lisman, J.E., Position reconstruction from an ensemble of hippocampal place cells: contribution of theta phase coding (2000) J Neurophysiol, 83, pp. 2602-2609; \n\nJensen, O., Lisman, J.E., Hippocampal sequence-encoding driven by a cortical multi-item working memory buffer (2005) Trends Neurosci, 28, pp. 67-72; \n\nJones, V.J., A fragmentation hypothesis of memory: cued recall of pictures and of sequential position (1976) J Exp Psychol Gen, 105, pp. 277-293; \n\nJung, M.W., Wiener, S.I., McNaughton, B.L., Comparison of spatial firing characteristics of units in dorsal and ventral hippocampus of the rat (1994) J Neurosci, 14, pp. 7347-7356; \n\nKali, S., Dayan, P., The involvement of recurrent connections in area CA3 in establishing the properties of place fields: a model (2000) J Neurosci, 20, pp. 7463-7477; \n\nKali, S., Dayan, P., Off-line replay maintains declarative memories in a model of hippocampal-neocortical interactions (2004) Nat Neurosci, 7, pp. 286-294; \n\nKeith, J.R., McVety, K.M., Latent place learning in a novel environment and the influence of prior training in rats (1988) Psychobiology, 16, pp. 146-151; \n\nKentros, C., Hargreaves, E., Hawkins, R.D., Kandel, E.R., Shapiro, M., Muller, R.V., Abolition of long-term stability of new hippocampal place cell maps by NMDA receptor blockade (1998) Science, 280, pp. 2121-2126; \n\nKnierim, J.J., Hippocampal remapping: implications for spatial learning and navigation (2003) The neurobiology of spatial behaviour, pp. 226-239. , Jeffery KJ, ed, Oxford, UK: Oxford University Press; \n\nKnierim, J.J., Kudrimoti, H.S., McNaughton, B.L., Place cells, head direction cells, and the learning of landmark stability (1995) J Neurosci, 15, pp. 1648-1659; \n\nKnowlton, B.J., Squire, L.R., Remembering and knowing: two different expressions of declarative memory (1995) J Exp Psychol Learn Mem Cogn, 21, pp. 699-710; \n\nKohonen, T., Correlation matrix memories (1972) IEEE Trans Comp, C-21, pp. 353-359; \n\nKroll, N.E., Knight, R.T., Metcalfe, J., Wolf, E.S., Tulving, E., Cohesion failure as a source of memory illusions (1996) J Mem Language, 35, pp. 176-196; \n\nLatham, P.E., Deneve, S., Pouget, A., Optimal computation with attractor networks (2003) J Physiol Paris, 97, pp. 683-694; \n\nLengyel, M., Szatmary, Z., Erdi, P., Dynamically detuned oscillations account for the coupled rate and temporal code of place cell firing (2003) Hippocampus, 13, pp. 700-714; \n\nLeutgeb, J.K., Leutgeb, S., Treves, A., Meyer, R., Barnes, C.A., McNaughton, B.L., Moser, M.B., Moser, E.I., Progressive transformation of hippocampal neuronal representations in \"morphed\" environments (2005) Neuron, 48, pp. 345-358; \n\nLever, C., Wills, T., Cacucci, F., Burgess, N., O'Keefe, J., Long-term plasticity in the hippocampal place cell representation of environmental geometry (2002) Nature, 416, pp. 90-94; \n\nLevy, W.B., A sequence predicting CA3 is a flexible associator that learns and uses context to solve hippocampal-like tasks (1996) Hippocampus, 6, pp. 579-590; \n\nLieblich, I., Arbib, M.A., Multiple representations of space iun-derlying behavior (1982) Behav Brain Sci, 5, pp. 627-659; \n\nLisman, J.E., Grace, A.A., The hippocampal-VIA Loop: controlling the entry of information into long-term memory (2005) Neuron, 46, pp. 703-713; \n\nLudvig, N., Tang, H.M., Gohil, B.C., Botero, J.M., Detecting location-specific neuronal firing rate increases in the hippocampus of freely-moving monkeys (2004) Brain Res, 1014, pp. 97-109; \n\nMallot, H.A., Gillner, S., Route navigating without place recognition: what is recognised in recognition-triggered responses (2000) Perception, 29, pp. 43-55; \n\nManns, J.R., Squire, L.R., Impaired recognition memory on the doors and people test after damage limited to the hippocampal region (1999) Hippocampus, 9, pp. 495-499; \n\nMarr, D., A theory for cerebral cortex (1970) Proc R Soc Lond B Biol Sci, 176, pp. 161-234; \n\nMarr, D., Simple memory: a theory for archicortex (1971) Philos Trans R Soc Lond B Biol Sci, 262, pp. 23-81; \n\nMaurer, A.P., Van Rhoads, S.R., Sutherland, G.R., Lipa, P., McNaughton, B.L., Self-motion and the origin of differential spatial scaling along the septotemporal axis of the hippocampus (2005) Hippocampus, 15, pp. 841-852; \n\nMcClelland, J.L., McNaughton, B.L., O'Reilly, R.C., Why there are complementary learning systems in the hippocampus and neocortex: insights from the successes and failures of connectionist models of learning and memory (1995) Psychol Rev, 102, pp. 419-457; \n\nMcClelland, J.L., Rumelhart, D.E., (1986) Parallel distributed processing: explorations in the microstructure of cognition, 2. , Psychological and biological models. Cambridge, MA: MIT Press; \n\nMcNaughton, B.L., Barnes, C.A., O'Keefe, J., The contributions of position, direction, and velocity to single unit activity in the hippocampus of freelymoving rats (1983) Exp Brain Res, 52, pp. 41-49; \n\nMcNaughton, B.L., Barnes, C.A., Gerrard, J.L., Gothard, K., Jung, M.W., Knierim, J.J., Kudrimoti, H., Weaver, K.L., Deciphering the hippocampal polyglot: the hippocampus as a path integration system (1996) J Exp Biol, 199, pp. 173-185; \n\nMcNaughton, B.L., Battaglia, F.P., Jensen, O., Moser, E.I., Moser, M.B., Path integration and the neural basis of the 'cognitive map' (2006) Nat Rev Neurosci, 7, pp. 663-678; \n\nMcNaughton, B.L., Morris, R.G., Hippocampal synaptic enhancement and information storage within a distributed memory system (1987) Trends Neurosci, 10, pp. 408-415; \n\nMcNaughton, B.L., Nadel, L., Hebb-Marr networks and the neurobiological representation of action in space (1990) Neuroscience and connectionist theory, pp. 1-63. , Gluck MA, Rumelhart DE, eds, Hillsdale, NJ: Lawrence Erlbaum; \n\nMehta, M.R., Barnes, C.A., McNaughton, B.L., Experience-dependent, asymmetric expansion of hippocampal place fields (1997) Proc Natl Acad Sci USA, 94, pp. 8918-8921; \n\nMehta, M.R., Quirk, M.C., Wilson, M.A., Experience-dependent asymmetric shape of hippocampal receptive fields (2000) Neuron, 25, pp. 707-715; \n\nMehta, M.R., Lee, A.K., Wilson, M.A., Role of experience and oscillations in transforming a rate code into a temporal code (2002) Nature, 417, pp. 741-746; \n\nMensink, G.J., Raaijmakers, J.G., A model for interference and forgetting (1988) Psychol Rev, 95, pp. 434-455; \n\nMezard, M., Nadal, J.-P., Learning in feedforward layered networks: the Tiling algorithm (1989) J Physics A, 22, pp. 2191-2203; \n\nMilner, A.D., Dijkerman, H.C., Carey, D.P., Visuospatial processing in a case of visual form agnosia (1999) The hippocampal and parietal foundations of spatial cognition, pp. 443-466. , Burgess N, Jeffery KJ, O'Keefe J, eds, Oxford, UK: Oxford University Press; \n\nMoll, M., Miikkulainen, R., Convergence-zone episodic memory: analysis and simulations (1997) Neural Networks, 10, pp. 1017-1036; \n\nMontague, P.R., Dayan, P., Sejnowski, T.J., A framework for mes-encephalic dopamine systems based on predictive Hebbian learning (1996) J Neurosci, 16, pp. 1936-1947; \n\nMorris, R.G.M., Garrud, P., Rawlins, J.N., O'Keefe, J., Place navigation impaired in rats with hippocampal lesions (1982) Nature, 297, pp. 681-683; \n\nMorton, J., Hammersley, R.H., Bekerian, D.A., Headed records: a model for memory and its failure (1985) Cognition, 20, pp. 1-23; \n\nMuller, R.U., Kubie, J.L., The effects of changes in the environment on the spatial firing of hippocampal complex-spike cells (1987) J Neurosci, 7, pp. 1951-1968; \n\nMuller, R.U., Kubie, J.L., Saypoff, R., The hippocampus as a cognitive graph (abridged version) (1991) Hippocampus, 1, pp. 243-246; \n\nMuller, R.U., Stead, M., Pach, J., The hippocampus as a cognitive graph (1996) J Gen Physiol, 107, pp. 663-694; \n\nMurray, E.A., Mishkin, M., Object recognition and location memory in monkeys with excitotoxic lesions of the amygdala and hippocampus (1998) J Neurosci, 18, pp. 6568-6582; \n\nMurre, J.M., TraceLink: a model of amnesia and consolidation of memory (1996) Hippocampus, 6, pp. 675-684; \n\nNadel, L., Moscovitch, M., Memory consolidation, retrograde amnesia and the hippocampal complex (1997) Curr Opin Neurobiol, 7, pp. 217-227; \n\nNader, K., Schafe, G.E., LeDoux, J.E., The labile nature of consolidation theory (2000) Nat Rev Neurosci, 1, pp. 216-219; \n\nNakazawa, K., Quirk, M.C., Chitwood, R.A., Watanabe, M., Yeckel, M.F., Sun, L.D., Kato, A., Tonegawa, S., Requirement for hippocampal CA3 NMDA receptors in associative memory recall (2002) Science, 297, pp. 211-218; \n\nNicolelis, M.A., Baccala, L.A., Lin, R.C., Chapin, J.K., Sensorimotor encoding by synchronous neural ensemble activity at multiple levels of the somatosensory system (1995) Science, 268, pp. 1353-1358; \n\nNorman, K.A., Episodic memory, computational models of (2003) Encyclopedia of cognitive science, pp. 15-23. , Nadel L, ed, London: Nature Publishing; \n\nNorman, K.A., O'Reilly, R.C., Modeling hippocampal and neocortical contributions to recognition memory: a complementary-learning-systems approach (2003) Psychol Rev, 110, pp. 611-646; \n\nO'Keefe, J., A computational theory of the hippocampal cognitive map (1990) Prog Brain Res, 83, pp. 301-312; \n\nO'Keefe, J., The hippocampal cognitive map and navigational strategies (1991) Brain and Space, pp. 273-295. , Paillard J, ed, Oxford, UK: Oxford University Press; \n\nO'Keefe, J., Burgess, N., Geometric determinants of the place fields of hippocampal neurons (1996) Nature, 381, pp. 425-428; \n\nO'Keefe, J., Burgess, N., Dual phase and rate coding in hippocampal place cells: theoretical significance and relationship to entorhinal grid cells (2005) Hippocampus, 15, pp. 853-866; \n\nO'Keefe, J., Conway, D.H., Hippocampal place units in the freely moving rat: why they fire where they fire (1978) Exp Brain Res, 31, pp. 573-590; \n\nO'Keefe, J., Nadel, L., (1978) The hippocampus as a cognitive map, , Oxford, UK: Oxford University Press; \n\nO'Keefe, J., Recce, M.L., Phase relationship between hippocampal place units and the EEG theta rhythm (1993) Hippocampus, 3, pp. 317-330; \n\nO'Keefe, J., Speakman, A., Single unit activity in the rat hippocampus during a spatial memory task (1987) Exp Brain Res, 68, pp. 1-27; \n\nOja, E., A simplified neuron model as a principal component analyzer (1982) J Math Biol, 15, pp. 267-273; \n\nPackard, M.G., McGaugh, J.L., Inactivation of hippocampus or caudate nucleus with lidocaine differentially affects expression of place and response learning (1996) Neurobiol Learn Mem, 65, pp. 65-72; \n\nPouget, A., Sejnowski, T.J., A new view of hemineglect based on the response properties of parietal neurones (1997) Philos Trans R Soc Lond B Biol Sci, 352, pp. 1449-1459; \n\nQuirk, G.J., Muller, R.U., Kubie, J.L., Ranck Jr, J.B., The positional firing properties of medial entorhinal neurons: description and comparison with hippocampal place cells (1992) J Neurosci, 12, pp. 1945-1963; \n\nRaaijmakers, J.G., Shiffrin, R.M., Search of associative memory (1981) Psychol Rev, 88, pp. 93-134; \n\nRatcliff, R., Connectionist models of recognition memory: constraints imposed by learning and forgetting functions (1990) Psychol Rev, 97, pp. 285-308; \n\nRecce, M., Harris, K.D., Memory for places: a navigational model in support of Marr's theory of hippocampal function (1996) Hippocampus, 6, pp. 735-748; \n\nRedish, A.D., (1999) Beyond the cognitive map: from place cells to episodic memory, , Cambridge, MA: MIT Press; \n\nRedish, A.D., Elga, A.N., Touretzky, D.S., A coupled attractor model of the rodent head direction system (1996) Network, 7, pp. 671-685; \n\nRedish, A.D., Rosenzweig, E.S., Bohanick, J.D., McNaughton, B.L., Barnes, C.A., Dynamics of hippocampal ensemble activity realignment: time versus space (2000) J Neurosci, 20, pp. 9298-9309; \n\nRedish, A.D., Touretzky, D.S., The role of the hippocampus in solving the Morris watermaze (1998) Neural Comput, 10, pp. 73-111; \n\nRoberts, A.C., Robbins, T.W., Weiskrantz, L., (1998) The prefrontal cortex, , Oxford, UK: Oxford University Press; \n\nRolls, E.T., A theory of hippocampal function in memory (1996) Hippocampus, 6, pp. 601-620; \n\nRolls, E.T., Treves, A., (1997) Neural networks and brain function, , Oxford, UK: Oxford University Press; \n\nRolls, E.T., Robertson, R.G., Georges-Francois, P., Spatial view cells in the primate hippocampus (1997) Eur J Neurosci, 9, pp. 1789-1794; \n\nRosenbaum, R.S., Priselac, S., Kohler, S., Black, S.E., Gao, F., Nadel, L., Moscovitch, M., Remote spatial memory in an amnesic person with extensive bilateral hippocampal lesions (2000) Nat Neurosci, 3, pp. 1044-1048; \n\nRoyer, S., Pare, D., Conservation of total synaptic weight through balanced synaptic depression and potentiation (2003) Nature, 422, pp. 518-522; \n\nRugg, M.D., Yonelinas, A.P., Human recognition memory: a cognitive neuroscience perspective (2003) Trends Cogn Sci, 7, pp. 313-319; \n\nRumelhart, D.E., McClelland, J.L., (1986) Parallel distributed processing: explorations in the microstructure of cognition, 1. , Foundations. Cambridge, MA: MIT Press; \n\nRumelhart, D.E., Hinton, G.E., Williams, R.J., Learning internal representations by error propagation (1986) Parallel distributed programming, 1, pp. 318-364. , Foundations (Rumelhart DE, McClelland JL, eds), Cambridge, MA: MIT Press; \n\nRumelhart, D.E., Zipser, D., Feature discovery by competitive learning. (1986) Parallel distributed programming, 1, pp. 151-193. , Rumelhart DE, McClelland JL, eds, MIT Press; \n\nSamsonovich, A., McNaughton, B.L., Path integration and cognitive mapping in a continuous attractor neural network model (1997) J Neurosci; \n\nSave, E., Nerad, L., Poucet, B., Contribution of multiple sensory information to place field stability in hippocampal place cells (2000) Hippocampus, 10, pp. 64-76; \n\nScholkopf, B., Mallot, H.A., View-based cognitive mapping and path planning (1995) Adaptive Behav, 3, pp. 311-348; \n\nSchultz, W., Dayan, P., Montague, P.R., A neural substrate of prediction and reward (1997) Science, 275, pp. 1593-1599; \n\nScoville, W.B., Milner, B., Loss of recent memory after bilateral hippocampal lesions (1957) J Neurol Neurosurg Psychiatry, 20, pp. 11-21; \n\nSharp, P.E., Computer simulation of hippocampal place cells (1991) Psychobiology, 19, pp. 103-115; \n\nSharp, P.E., Multiple spatial/behavioral correlates for cells in the rat postsubiculum: multiple regression analysis and comparison to other hippocampal areas (1996) Cereb Cortex, 6, pp. 238-259; \n\nSharp, P.E., Green, C., Spatial correlates of firing patterns of single cells in the subiculum of the freely moving rat (1994) J Neurosci, 14, pp. 2339-2356; \n\nShors, T.J., Miesagaes, G., Beylin, A., Zhao, M., Rydel, T., Gould, E., Neurogenesis in the adult is involved in the formation of trace memories (2001) Nature, 410, pp. 372-376; \n\nSkaggs, W.E., Knierim, J.J., Kudrimoti, H., McNaughton, B.L., A model of the neural basis of the rat's sense of direction (1995) Neural information processing systems, 7, pp. 173-180. , Hanson SJ, Cowan JD, Giles CL, eds, Cambridge, MA: MIT Press; \n\nSkaggs, W.E., McNaughton, B.L., Wilson, M.A., Barnes, C.A., Theta phase precession in hippocampal neuronal populations and the compression of temporal sequences (1996) Hippocampus, 6, pp. 149-172; \n\nSkaggs, W.E., McNaughton, B.L., Spatial firing properties of hippocampal CA1 populations in an environment containing two visually identical regions (1998) J Neurosci, 18, pp. 8455-8466; \n\nSpeakman, A., O'Keefe, J., Hippocampal complex spike cells do not change their place fields if the goal is moved within a cue controlled environment (1990) Eur J Neurosci, 7, pp. 544-555; \n\nSpiers, H.J., Maguire, E.A., Burgess, N., Hippocampal amnesia (2001) Neurocase, 7, pp. 357-382; \n\nSquire, L.R., Zola, S.M., Episodic memory, semantic memory, and amnesia (1998) Hippocampus, 8, pp. 205-211; \n\nSutton, R.S., Barto, A.G., (1988) Reinforcement learning: an introduction, , Cambridge, MA: MIT Press; \n\nTaube, J.S., Head direction cells and the neuropsychological basis for a sense of direction (1998) Prog Neurobiol, 55, pp. 225-256; \n\nTaube, J.S., Muller, R.U., Comparisons of head direction cell activity in the postsubiculum and anterior thalamus of freely moving rats (1998) Hippocampus, 8, pp. 87-108; \n\nTaube, J.S., Muller, R.U., Ranck Jr, J.B., Head-direction cells recorded from the postsubiculum in freely moving rats. II. Effects of environmental manipulations (1990) J Neurosci, 10, pp. 436-447; \n\nTeng, E., Squire, L.R., Memory for places learned long ago is intact after hippocampal damage (1999) Nature, 400, pp. 675-677; \n\nTeyler, T.J., DiScenna, P., The hippocampal memory indexing theory (1986) Behav Neurosci, 100, pp. 147-154; \n\nTolman, E.C., Cognitive maps in rats and men (1948) Psychol Rev, 55, pp. 189-208; \n\nTouretzky, D.S., Redish, A.D., Theory of rodent navigation based on interacting representations of space (1996) Hippocampus, 6, pp. 247-270; \n\nTreves, A., Rolls, E.T., Computational constraints suggest the need for two distinct input systems to the hippocampal CA3 network (1992) Hippocampus, 2, pp. 189-199; \n\nTrullier, O., Wiener, S.I., Berthoz, A., Meyer, J.A., Biologically based artificial navigation systems: review and prospects (1997) Prog Neurobiol, 51, pp. 483-544; \n\nTsodyks, M.V., Skaggs, W.E., Sejnowski, T.J., McNaughton, B.L., Population dynamics and theta rhythm phase precession of hippocampal place cell firing: a spiking neuron model (1996) Hippocampus, 6, pp. 271-280; \n\nTulving, E., What is episodic memory (1993) Curr Perspect Psychol Sci, 2, pp. 67-70; \n\nVargha-Khadem, F., Gadian, D.G., Watkins, K.E., Connelly, A., Van Paesschen, W., Mishkin, M., Differential effects of early hippocampal pathology on episodic and semantic memory (1997) Science, 277, pp. 376-380; \n\nWallenstein, G.V., Eichenbaum, H., Hasselmo, M.E., The hippocampus as an associator of discontiguous events (1998) Trends Neurosci, 21, pp. 317-323; \n\nWallenstein, G.V., Hasselmo, M.E., GABAergic modulation of hippocampal population activity: sequence learning, place field development, and the phase precession effect (1997) J Neurophysiol, 78, pp. 393-408; \n\nWan, H., Aggleton, J.P., Brown, M.W., Different contributions of the hippocampus and perirhinal cortex to recognition memory (1999) J Neurosci, 19, pp. 1142-1148; \n\nWilkie, D.M., Palfrey, R., A computer simulation model of rat's place navigation in the Morris watermaze (1987) Behav Res Meth Instrum Comput, 19, pp. 400-403; \n\nWills, T., Lever, C., Cacucci, F., Burgess, N., O'Keefe, J., Attractor dynamics in the hippocampal representation of the local environment (2005) Science, 308, pp. 873-876; \n\nWillshaw, D.J., Buckingham, J.T., An assessment of Marr's theory of the hippocampus as a temporary memory store (1990) Philos Trans R Soc Lond B Biol Sci, 329, pp. 205-215; \n\nWillshaw, D.J., Buneman, O.P., Longuet-Higgins, H.C., Non-holographic associative memory (1969) Nature, 222, pp. 960-962; \n\nWilson, M.A., McNaughton, B.L., Dynamics of the hippocampal ensemble code for space (1993) Science, 261, pp. 1055-1058; \n\nYonelinas, A.P., The nature of recollection and familiarity: a review of 30 years of research (2002) J Mem Language, 46, pp. 441-517; \n\nYonelinas, A.P., Kroll, N.E., Quamme, J.R., Lazzara, M.M., Sauve, M.J., Widaman, K.F., Knight, R.T., Effects of extensive temporal lobe damage or mild hypoxia on recollection and familiarity (2002) Nat Neurosci, 5, pp. 1236-1241; \n\nZhang, K., Representation of spatial orientation by the intrinsic dynamics of the head-direction cell ensemble: a theory (1996) J Neurosci, 16, pp. 2112-2126; \n\nZhu, X.O., McCabe, B.J., Aggleton, J.P., Brown, M.W., Mapping visual recognition memory through expression of the immediate early gene c-fos (1996) Neuroreport, 7, pp. 1871-1875; \n\nZipser, D., A computational model of hippocampal place fields (1985) Behav Neurosci, 99, pp. 1006-1018; \n\nZipser, D., Place recognition (1986) Parallel distributed programming, 2, pp. 432-470. , Psychological and biological models (McClelland JL, Rumelhart DE, eds), Cambridge, MA: MIT Press; \n\nZola, S.M., Squire, L.R., Teng, E., Stefanacci, L., Buffalo, E.A., Clark, R.E., Impaired recognition memory in monkeys after damage limited to the hippocampal region (2000) J Neurosci, 20, pp. 451-463; \n\nZola-Morgan, S., Squire, L.R., Ramus, S.J., Severity of memory impairment in monkeys as a function of locus and extent of damage within the medial temporal lobe memory system (1994) Hippocampus, 4, pp. 483-495", "hasCitationDuplums" : false, "userChangeableUntil" : "2016-07-03T10:25:40.000+0000", "publishDate" : "2016-04-04T10:25:40.000+0000", "directInstitutesForSort" : "", "ownerAuthorCount" : 6, "ownerInstituteCount" : 57, "directInstituteCount" : 0, "authorCount" : 1, "contributorCount" : 0, "book" : { "otype" : "Book", "mtid" : 30209052, "link" : "/api/publication/30209052", "label" : "Andersen Per. 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