Advanced search
Publication Cover
Network: Computation in Neural Systems Volume 17, 2006 - Issue 4
Submit an article Journal homepage
1,560
Views
159
CrossRef citations to date
0
Altmetric
ORIGINAL ARTICLE

Entorhinal cortex grid cells can map to hippocampal place cells by competitive learning

Edmund T. Rolls Centre for Computational Neuroscience, Department of Experimental Psychology, Oxford University, South Parks Road, Oxford, OX1 3UD, England
,
Simon M. Stringer Centre for Computational Neuroscience, Department of Experimental Psychology, Oxford University, South Parks Road, Oxford, OX1 3UD, England
&
Thomas Elliot Centre for Computational Neuroscience, Department of Experimental Psychology, Oxford University, South Parks Road, Oxford, OX1 3UD, England
Pages 447-465 | Received 28 Jul 2006, Accepted 14 Oct 2006, Published online: 09 Jul 2009

Citations (159)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (1)

Henry O C Jordan, Daniel M Navarro & Simon M Stringer. (2020) The formation and use of hierarchical cognitive maps in the brain: A neural network model. Network: Computation in Neural Systems 31:1-4, pages 37-141.
Read now

Articles from other publishers (158)

John C. Bowler & Attila Losonczy. (2023) Direct cortical inputs to hippocampal area CA1 transmit complementary signals for goal-directed navigation. Neuron.
Crossref
Andrew S. Alexander, Jennifer C. Robinson, Chantal E. Stern & Michael E. Hasselmo. (2023) Gated transformations from egocentric to allocentric reference frames involving retrosplenial cortex, entorhinal cortex, and hippocampus. Hippocampus 33:5, pages 465-487.
Crossref
Edmund T. Rolls. (2022) Hippocampal spatial view cells for memory and navigation, and their underlying connectivity in humans. Hippocampus 33:5, pages 533-572.
Crossref
Genela Morris & Dori Derdikman. (2023) The chicken and egg problem of grid cells and place cells. Trends in Cognitive Sciences 27:2, pages 125-138.
Crossref
Jose A. Fernandez-Leon, Ahmet Kerim Uysal & Daoyun Ji. (2022) Place cells dynamically refine grid cell activities to reduce error accumulation during path integration in a continuous attractor model. Scientific Reports 12:1.
Crossref
Jiaxin Li, Huajin Tang & Rui Yan. (2022) A Hybrid Loop Closure Detection Method Based on Brain-Inspired Models. IEEE Transactions on Cognitive and Developmental Systems 14:4, pages 1532-1543.
Crossref
Chen Zhaoqi, Alia Nasrallah, Milad Alemohammad, Masanori Furuta & Ralph Etienne-Cummings. (2022) Neuromorphic model of hippocampus place cells using an oscillatory interference technique for hardware implementation. Neuromorphic Computing and Engineering 2:4, pages 044013.
Crossref
Naigong Yu, Yishen Liao, Hejie Yu & Ouattara Sie. (2022) Construction of the rat brain spatial cell firing model on a quadruped robot. CAAI Transactions on Intelligence Technology 7:4, pages 732-743.
Crossref
Shun-Yu Zhang, Sheng-Qiang Chen, Jin-Yuan Zhang, Chang-Hui Chen, Xiao-Jun Xiang, Hui-Ru Cai & Song-Lin Ding. (2022) The effects of bilateral prostriata lesions on spatial learning and memory in the rat. Frontiers in Behavioral Neuroscience 16.
Crossref
Manuel Valero, Andrea Navas-Olive, Liset M. de la Prida & György Buzsáki. (2022) Inhibitory conductance controls place field dynamics in the hippocampus. Cell Reports 40:8, pages 111232.
Crossref
Yanbo Lian & Anthony N. Burkitt. (2022) Learning Spatiotemporal Properties of Hippocampal Place Cells. eneuro 9:4, pages ENEURO.0519-21.2022.
Crossref
Baozhong Li, Yanming Liu & Lei Lai. (2021) Computational model of grid cells based on back‐propagation neural network. Electronics Letters 58:3, pages 93-96.
Crossref
Ipshita Zutshi, Manuel Valero, Antonio Fernández-Ruiz & György Buzsáki. (2022) Extrinsic control and intrinsic computation in the hippocampal CA1 circuit. Neuron 110:4, pages 658-673.e5.
Crossref
Jinsheng Yuan, Wei Guo, Fusheng Zha, Pengfei Wang, Mantian Li & Lining Sun. (2022) A Bionic Spatial Cognition Model and Method for Robots Based on the Hippocampus Mechanism. Frontiers in Neurorobotics 15.
Crossref
Dongye Zhao, Zheng Zhang, Hong Lu, Sen Cheng, Bailu Si & Xisheng Feng. (2022) Learning Cognitive Map Representations for Navigation by Sensory–Motor Integration. IEEE Transactions on Cybernetics 52:1, pages 508-521.
Crossref
Oleksandra Soldatkina, Francesca Schönsberg & Alessandro Treves. 2022. Computational Modelling of the Brain. Computational Modelling of the Brain 285 312 .
Jennifer C Robinson & Mark P Brandon. (2021) Skipping ahead: A circuit for representing the past, present, and future. eLife 10.
Crossref
Jens Collitti‐Klausnitzer, Hardy Hagena, Valentyna Dubovyk & Denise Manahan‐Vaughan. (2021) Preferential frequency‐dependent induction of synaptic depression by the lateral perforant path and of synaptic potentiation by the medial perforant path inputs to the dentate gyrus. Hippocampus 31:9, pages 957-981.
Crossref
Jing Huang, He-Yuan Yang, Xiao-Gang Ruan, Nai-Gong Yu, Guo-Yu Zuo & Hao-Meng Liu. (2021) A Spatial Cognitive Model that Integrates the Effects of Endogenous and Exogenous Information on the Hippocampus and Striatum. International Journal of Automation and Computing 18:4, pages 632-644.
Crossref
Edmund T. Rolls. (2021) Learning Invariant Object and Spatial View Representations in the Brain Using Slow Unsupervised Learning. Frontiers in Computational Neuroscience 15.
Crossref
Yanbo Lian & Anthony N. Burkitt. (2021) Learning an Efficient Hippocampal Place Map from Entorhinal Inputs Using Non-Negative Sparse Coding. eneuro 8:4, pages ENEURO.0557-20.2021.
Crossref
Adithya Krishna, Divyansh Mittal, Siri Garudanagiri Virupaksha, Abhishek Ramdas Nair, Rishikesh Narayanan & Chetan Singh Thakur. (2021) Biomimetic FPGA-based spatial navigation model with grid cells and place cells. Neural Networks 139, pages 45-63.
Crossref
Jiru Wang, Rui Yan & Huajin Tang. (2021) Multi-Scale Extension in an Entorhinal-Hippocampal Model for Cognitive Map Building. Frontiers in Neurorobotics 14.
Crossref
Francesco Donnarumma, Roberto Prevete, Domenico Maisto, Simone Fuscone, Emily M. Irvine, Matthijs A. A. van der Meer, Caleb Kemere & Giovanni Pezzulo. (2021) A framework to identify structured behavioral patterns within rodent spatial trajectories. Scientific Reports 11:1.
Crossref
Soyoun Kim, Dajung Jung & Sébastien Royer. (2020) Place cell maps slowly develop via competitive learning and conjunctive coding in the dentate gyrus. Nature Communications 11:1.
Crossref
Xiaomin Zhang, Alois Schlögl & Peter Jonas. (2020) Selective Routing of Spatial Information Flow from Input to Output in Hippocampal Granule Cells. Neuron 107:6, pages 1212-1225.e7.
Crossref
Haggai Agmon & Yoram Burak. (2020) A theory of joint attractor dynamics in the hippocampus and the entorhinal cortex accounts for artificial remapping and grid cell field-to-field variability. eLife 9.
Crossref
Johannes Nagele, Andreas V.M. Herz & Martin B. Stemmler. (2020) Untethered firing fields and intermittent silences: Why grid‐cell discharge is so variable. Hippocampus 30:4, pages 367-383.
Crossref
Edmund T. Rolls. (2020) Spatial coordinate transforms linking the allocentric hippocampal and egocentric parietal primate brain systems for memory, action in space, and navigation. Hippocampus 30:4, pages 332-353.
Crossref
Vegard Edvardsen, Andrej Bicanski & Neil Burgess. (2019) Navigating with grid and place cells in cluttered environments. Hippocampus 30:3, pages 220-232.
Crossref
Sahn Woo Park, Hyun Jae Jang, Mincheol Kim & Jeehyun Kwag. (2019) Spatiotemporally random and diverse grid cell spike patterns contribute to the transformation of grid cell to place cell in a neural network model. PLOS ONE 14:11, pages e0225100.
Crossref
Felix Weissenberger, Marcelo Matheus Gauy, Xun Zou & Angelika Steger. (2019) Mutual Inhibition with Few Inhibitory Cells via Nonlinear Inhibitory Synaptic Interaction. Neural Computation 31:11, pages 2252-2265.
Crossref
Gene J. Yu, Jean-Marie C. Bouteiller, Dong Song & Theodore W. Berger. (2019) Axonal Anatomy Optimizes Spatial Encoding in the Rat Entorhinal-Dentate System: A Computational Study. IEEE Transactions on Biomedical Engineering 66:10, pages 2728-2739.
Crossref
Edmund T. Rolls & Patrick Mills. (2019) The Generation of Time in the Hippocampal Memory System. Cell Reports 28:7, pages 1649-1658.e6.
Crossref
Dajung Jung, Soyoun Kim, Anvar Sariev, Farnaz Sharif, Daesoo Kim & Sebastien Royer. (2019) Dentate granule and mossy cells exhibit distinct spatiotemporal responses to local change in a one-dimensional landscape of visual-tactile cues. Scientific Reports 9:1.
Crossref
Xiaomao Zhou, Tao Bai, Yanbin Gao & Yuntao Han. (2019) Vision-Based Robot Navigation through Combining Unsupervised Learning and Hierarchical Reinforcement Learning. Sensors 19:7, pages 1576.
Crossref
Geoffrey W. Diehl, Olivia J. Hon, Stefan Leutgeb & Jill K. Leutgeb. (2019) Stability of medial entorhinal cortex representations over time. Hippocampus 29:3, pages 284-302.
Crossref
Philippe Gaussier, Jean Paul Banquet, Nicolas Cuperlier, Mathias Quoy, Lise Aubin, Pierre-Yves Jacob, Francesca Sargolini, Etienne Save, Jeffrey L. Krichmar & Bruno Poucet. (2019) Merging information in the entorhinal cortex: what can we learn from robotics experiments and modeling?. Journal of Experimental Biology 222:Suppl_1.
Crossref
Edmund T. Rolls & Sylvia Wirth. (2018) Spatial representations in the primate hippocampus, and their functions in memory and navigation. Progress in Neurobiology 171, pages 90-113.
Crossref
David C Rowland, Horst A Obenhaus, Emilie R Skytøen, Qiangwei Zhang, Cliff G Kentros, Edvard I Moser & May-Britt Moser. (2018) Functional properties of stellate cells in medial entorhinal cortex layer II. eLife 7.
Crossref
Karthik Soman, Vignesh Muralidharan & V. Srinivasa Chakravarthy. (2018) A Model of Multisensory Integration and Its Influence on Hippocampal Spatial Cell Responses. IEEE Transactions on Cognitive and Developmental Systems 10:3, pages 637-646.
Crossref
Edmund T. Rolls. (2017) The storage and recall of memories in the hippocampo-cortical system. Cell and Tissue Research 373:3, pages 577-604.
Crossref
Karthik Soman, Vignesh Muralidharan & Vaddadi Srinivasa Chakravarthy. (2018) A unified hierarchical oscillatory network model of head direction cells, spatially periodic cells, and place cells. European Journal of Neuroscience 47:10, pages 1266-1281.
Crossref
Simon Nikolaus Weber & Henning Sprekeler. (2018) Learning place cells, grid cells and invariances with excitatory and inhibitory plasticity. eLife 7.
Crossref
Patrick Latuske, Olga Kornienko, Laura Kohler & Kevin Allen. (2018) Hippocampal Remapping and Its Entorhinal Origin. Frontiers in Behavioral Neuroscience 11.
Crossref
Daniel Bush & Christoph Schmidt-Hieber. 2018. Hippocampal Microcircuits. Hippocampal Microcircuits 585 613 .
Edvard I Moser, May-Britt Moser & Bruce L McNaughton. (2017) Spatial representation in the hippocampal formation: a history. Nature Neuroscience 20:11, pages 1448-1464.
Crossref
Sun-Chun Zhou, Rui Yan, Jia-Xin Li, Ying-Ke Chen & Huajin Tang. (2017) A brain-inspired SLAM system based on ORB features. International Journal of Automation and Computing 14:5, pages 564-575.
Crossref
Torsten Neher, Amir Hossein Azizi & Sen Cheng. (2017) From grid cells to place cells with realistic field sizes. PLOS ONE 12:7, pages e0181618.
Crossref
Ingmar Kanitscheider & Ila Fiete. (2017) Making our way through the world: Towards a functional understanding of the brain's spatial circuits. Current Opinion in Systems Biology 3, pages 186-194.
Crossref
Benjamin R. Kanter, Christine M. Lykken, Daniel Avesar, Aldis Weible, Jasmine Dickinson, Benjamin Dunn, Nils Z. Borgesius, Yasser Roudi & Clifford G. Kentros. (2017) A Novel Mechanism for the Grid-to-Place Cell Transformation Revealed by Transgenic Depolarization of Medial Entorhinal Cortex Layer II. Neuron 93:6, pages 1480-1492.e6.
Crossref
Yang Zhou & De‐wei Wu. (2017) Grid‐to‐place cells model based on radial basis function network. Electronics Letters 53:3, pages 200-201.
Crossref
Douglas GoodSmith, Xiaojing Chen, Cheng Wang, Sang Hoon Kim, Hongjun Song, Andrea Burgalossi, Kimberly M. Christian & James J. Knierim. (2017) Spatial Representations of Granule Cells and Mossy Cells of the Dentate Gyrus. Neuron 93:3, pages 677-690.e5.
Crossref
Edmund T. Rolls. 2017. Learning and Memory: A Comprehensive Reference. Learning and Memory: A Comprehensive Reference 557 578 .
Rory Finnegan, Mark Shaw & Suzanna Becker. 2017. The Rewiring Brain. The Rewiring Brain 443 461 .
David C. RowlandYasser RoudiMay-Britt MoserEdvard I. Moser. (2016) Ten Years of Grid Cells. Annual Review of Neuroscience 39:1, pages 19-40.
Crossref
Andrey Babichev, Daoyun Ji, Facundo M?moli & Yuri A. Dabaghian. (2016) A Topological Model of the Hippocampal Cell Assembly Network. Frontiers in Computational Neuroscience 10.
Crossref
Anu Aggarwal. (2016) Neuromorphic VLSI realization of the hippocampal formation. Neural Networks 77, pages 29-40.
Crossref
Anu Aggarwal. (2016) The sensori-motor model of the hippocampal place cells. Neurocomputing 185, pages 142-152.
Crossref
Edmund T. Rolls. (2016) Pattern separation, completion, and categorisation in the hippocampus and neocortex. Neurobiology of Learning and Memory 129, pages 4-28.
Crossref
Jon W. Rueckemann, Audrey J. DiMauro, Lara M. Rangel, Xue Han, Edward S. Boyden & Howard Eichenbaum. (2016) Transient optogenetic inactivation of the medial entorhinal cortex biases the active population of hippocampal neurons. Hippocampus 26:2, pages 246-260.
Crossref
Yang Zhou & Dewei Wu. (2016) A Model of Generating Visual Place Cells Based on Environment Perception and Similar Measure. Computational Intelligence and Neuroscience 2016, pages 1-9.
Crossref
Zoia Kharybina. 2016. Biologically Inspired Cognitive Architectures (BICA) for Young Scientists. Biologically Inspired Cognitive Architectures (BICA) for Young Scientists 79 84 .
Edmund T. Rolls. 2016. The Neurobiological Basis of Memory. The Neurobiological Basis of Memory 77 113 .
Chenglin Miao, Qichen Cao, Hiroshi T. Ito, Homare Yamahachi, Menno P. Witter, May-Britt Moser & Edvard I. Moser. (2015) Hippocampal Remapping after Partial Inactivation of the Medial Entorhinal Cortex. Neuron 88:3, pages 590-603.
Crossref
Tiziano D’Albis, Jorge Jaramillo, Henning Sprekeler & Richard Kempter. (2015) Inheritance of Hippocampal Place Fields Through Hebbian Learning: Effects of Theta Modulation and Phase Precession on Structure Formation. Neural Computation 27:8, pages 1624-1672.
Crossref
Katie C Bittner, Christine Grienberger, Sachin P Vaidya, Aaron D Milstein, John J Macklin, Junghyup Suh, Susumu Tonegawa & Jeffrey C Magee. (2015) Conjunctive input processing drives feature selectivity in hippocampal CA1 neurons. Nature Neuroscience 18:8, pages 1133-1142.
Crossref
Daniel Bush, Caswell Barry, Daniel Manson & Neil Burgess. (2015) Using Grid Cells for Navigation. Neuron 87:3, pages 507-520.
Crossref
Shuang Liu, Bailu Si & Yang Lin. (2015) Self-organization of hippocampal representations in large environments. Self-organization of hippocampal representations in large environments.
Torsten Neher, Sen Cheng & Laurenz Wiskott. (2015) Memory Storage Fidelity in the Hippocampal Circuit: The Role of Subregions and Input Statistics. PLOS Computational Biology 11:5, pages e1004250.
Crossref
Hideaki Shimazaki, Kolia Sadeghi, Tomoe Ishikawa, Yuji Ikegaya & Taro Toyoizumi. (2015) Simultaneous silence organizes structured higher-order interactions in neural populations. Scientific Reports 5:1.
Crossref
Adrien Jauffret, Nicolas Cuperlier & Philippe Gaussier. (2015) From grid cells and visual place cells to multimodal place cell: a new robotic architecture. Frontiers in Neurorobotics 9.
Crossref
John Oyekan. (2015) A vision-based terrain morphology estimation model inspired by the avian hippocampus. Digital Communications and Networks 1:2, pages 134-140.
Crossref
Raymond P. Kesner & Edmund T. Rolls. (2015) A computational theory of hippocampal function, and tests of the theory: New developments. Neuroscience & Biobehavioral Reviews 48, pages 92-147.
Crossref
Edmund T. Rolls. (2015) Limbic systems for emotion and for memory, but no single limbic system. Cortex 62, pages 119-157.
Crossref
Edmund T. Rolls. 2015. The Connected Hippocampus. The Connected Hippocampus 21 43 .
Julie R. Dumont & Jeffrey S. Taube. 2015. The Connected Hippocampus. The Connected Hippocampus 83 102 .
Jochen Kerdels & Gabriele Peters. 2015. Artificial General Intelligence. Artificial General Intelligence 283 292 .
Hossein Hassanpoor, Ali Fallah & Mohsin Raza. (2014) Mechanisms of hippocampal astrocytes mediation of spatial memory and theta rhythm by gliotransmitters and growth factors. Cell Biology International 38:12, pages 1355-1366.
Crossref
Oliver J. Hulme, Martin Skov, Martin J. Chadwick, Hartwig R. Siebner & Thomas Z. Rams?y. (2014) Sparse encoding of automatic visual association in hippocampal networks. NeuroImage 102, pages 458-464.
Crossref
Christine Lykken & Clifford G. Kentros. (2014) Beyond the bolus: transgenic tools for investigating the neurophysiology of learning and memory. Learning & Memory 21:10, pages 506-518.
Crossref
Amir H. Azizi, Natalie Schieferstein & Sen Cheng. (2014) The transformation from grid cells to place cells is robust to noise in the grid pattern. Hippocampus 24:8, pages 912-919.
Crossref
Edvard I. Moser, Yasser Roudi, Menno P. Witter, Clifford Kentros, Tobias Bonhoeffer & May-Britt Moser. (2014) Grid cells and cortical representation. Nature Reviews Neuroscience 15:7, pages 466-481.
Crossref
Jorge Jaramillo, Robert Schmidt & Richard Kempter. (2014) Modeling Inheritance of Phase Precession in the Hippocampal Formation. The Journal of Neuroscience 34:22, pages 7715-7731.
Crossref
Mark P. Brandon, Julie Koenig, Jill K. Leutgeb & Stefan Leutgeb. (2014) New and Distinct Hippocampal Place Codes Are Generated in a New Environment during Septal Inactivation. Neuron 82:4, pages 789-796.
Crossref
Tale L. Bjerknes, Edvard I. Moser & May-Britt Moser. (2014) Representation of Geometric Borders in the Developing Rat. Neuron 82:1, pages 71-78.
Crossref
Daniel Bush, Caswell Barry & Neil Burgess. (2014) What do grid cells contribute to place cell firing?. Trends in Neurosciences 37:3, pages 136-145.
Crossref
Mark P. Brandon, Julie Koenig & Stefan Leutgeb. (2013) Parallel and convergent processing in grid cell, head‐direction cell, boundary cell, and place cell networks. WIREs Cognitive Science 5:2, pages 207-219.
Crossref
Stephen Grossberg & Praveen K. Pilly. (2014) Coordinated learning of grid cell and place cell spatial and temporal properties: multiple scales, attention and oscillations. Philosophical Transactions of the Royal Society B: Biological Sciences 369:1635, pages 20120524.
Crossref
Sheng-Jia Zhang, Jing Ye, Jonathan J. Couey, Menno Witter, Edvard I. Moser & May-Britt Moser. (2014) Functional connectivity of the entorhinal–hippocampal space circuit. Philosophical Transactions of the Royal Society B: Biological Sciences 369:1635, pages 20120516.
Crossref
Menno P. Witter, Cathrin B. Canto, Jonathan J. Couey, Noriko Koganezawa & Kally C. O'Reilly. (2014) Architecture of spatial circuits in the hippocampal region. Philosophical Transactions of the Royal Society B: Biological Sciences 369:1635, pages 20120515.
Crossref
Tom Hartley, Colin Lever, Neil Burgess & John O'Keefe. (2014) Space in the brain: how the hippocampal formation supports spatial cognition. Philosophical Transactions of the Royal Society B: Biological Sciences 369:1635, pages 20120510.
Crossref
Stefan Leutgeb & Jill K. Leutgeb. 2014. Space,Time and Memory in the Hippocampal Formation. Space,Time and Memory in the Hippocampal Formation 227 251 .
John Widloski & Ila Fiete. 2014. Space,Time and Memory in the Hippocampal Formation. Space,Time and Memory in the Hippocampal Formation 373 407 .
Bailu Si & Alessandro Treves. (2013) A model for the differentiation between grid and conjunctive units in medial entorhinal cortex. Hippocampus 23:12, pages 1410-1424.
Crossref
Edvard I. Moser & May-Britt Moser. (2013) Grid Cells and Neural Coding in High-End Cortices. Neuron 80:3, pages 765-774.
Crossref
Li Lu, Jill K Leutgeb, Albert Tsao, Espen J Henriksen, Stefan Leutgeb, Carol A Barnes, Menno P Witter, May-Britt Moser & Edvard I Moser. (2013) Impaired hippocampal rate coding after lesions of the lateral entorhinal cortex. Nature Neuroscience 16:8, pages 1085-1093.
Crossref
J. Hirel, P. Gaussier, M. Quoy, J.P. Banquet, E. Save & B. Poucet. (2013) The hippocampo-cortical loop: Spatio-temporal learning and goal-oriented planning in navigation. Neural Networks 43, pages 8-21.
Crossref
Michael R. Hunsaker, Victoria Chen, Giang T. Tran & Raymond P. Kesner. (2013) The medial and lateral entorhinal cortex both contribute to contextual and item recognition memory: A test of the binding ofitems and context model. Hippocampus 23:5, pages 380-391.
Crossref
Praveen K. Pilly & Stephen Grossberg. (2013) Spiking Neurons in a Hierarchical Self-Organizing Map Model Can Learn to Develop Spatial and Temporal Properties of Entorhinal Grid Cells and Hippocampal Place Cells. PLoS ONE 8:4, pages e60599.
Crossref
Sheng-Jia ZhangJing YeChenglin MiaoAlbert TsaoIgnas CerniauskasDebora LedergerberMay-Britt MoserEdvard I. Moser. (2013) Optogenetic Dissection of Entorhinal-Hippocampal Functional Connectivity. Science 340:6128.
Crossref
Tora Bonnevie, Benjamin Dunn, Marianne Fyhn, Torkel Hafting, Dori Derdikman, John L Kubie, Yasser Roudi, Edvard I Moser & May-Britt Moser. (2013) Grid cells require excitatory drive from the hippocampus. Nature Neuroscience 16:3, pages 309-317.
Crossref
Michael R. Hunsaker & Raymond P. Kesner. (2013) The operation of pattern separation and pattern completion processes associated with different attributes or domains of memory. Neuroscience & Biobehavioral Reviews 37:1, pages 36-58.
Crossref
Jeff Orchard, Hao Yang & Xiang Ji. 2013. Advances in Artificial Intelligence. Advances in Artificial Intelligence 138 149 .
Bailu Si, Emilio Kropff & Alessandro Treves. (2012) Grid alignment in entorhinal cortex. Biological Cybernetics 106:8-9, pages 483-506.
Crossref
Alexander Mathis, Andreas V. M. Herz & Martin Stemmler. (2012) Optimal Population Codes for Space: Grid Cells Outperform Place Cells. Neural Computation 24:9, pages 2280-2317.
Crossref
Federico Stella, Erika Cerasti, Bailu Si, Karel Jezek & Alessandro Treves. (2012) Self-organization of multiple spatial and context memories in the hippocampus. Neuroscience & Biobehavioral Reviews 36:7, pages 1609-1625.
Crossref
Edmund T. Rolls. (2012) Advantages of dilution in the connectivity of attractor networks in the brain. Biologically Inspired Cognitive Architectures 1, pages 44-54.
Crossref
Praveen K. Pilly & Stephen Grossberg. (2012) How Do Spatial Learning and Memory Occur in the Brain? Coordinated Learning of Entorhinal Grid Cells and Hippocampal Place Cells. Journal of Cognitive Neuroscience 24:5, pages 1031-1054.
Crossref
Uğur M. Erdem & Michael Hasselmo. (2012) A goal-directed spatial navigation model using forward trajectory planning based on grid cells. European Journal of Neuroscience 35:6, pages 916-931.
Crossref
Mark P. Brandon, Andrew R. Bogaard, Chris M. Andrews & Michael E. Hasselmo. (2012) Head direction cells in the postsubiculum do not show replay of prior waking sequences during sleep. Hippocampus 22:3, pages 604-618.
Crossref
Himanshu Mhatre, Anatoli Gorchetchnikov & Stephen Grossberg. (2010) Grid cell hexagonal patterns formed by fast self‐organized learning within entorhinal cortex. Hippocampus 22:2, pages 320-334.
Crossref
Licurgo de Almeida, Marco Idiart & John E. Lisman. (2010) The single place fields of CA3 cells: A two‐stage transformation from grid cells. Hippocampus 22:2, pages 200-208.
Crossref
Edmund T. Rolls & Tristan J. Webb. (2012) Cortical attractor network dynamics with diluted connectivity. Brain Research 1434, pages 212-225.
Crossref
S. Cheng & L.M. Frank. (2011) The structure of networks that produce the transformation from grid cells to place cells. Neuroscience 197, pages 293-306.
Crossref
Nicholas J. Gustafson & Nathaniel D. Daw. (2011) Grid Cells, Place Cells, and Geodesic Generalization for Spatial Reinforcement Learning. PLoS Computational Biology 7:10, pages e1002235.
Crossref
Lisa?M. Giocomo, May-Britt Moser & Edvard?I. Moser. (2011) Computational Models of Grid Cells. Neuron 71:4, pages 589-603.
Crossref
Dori Derdikman & Edvard I. Moser. 2011. Space, Time and Number in the Brain. Space, Time and Number in the Brain 41 57 .
Dori Derdikman & Edvard I. Moser. (2010) A manifold of spatial maps in the brain. Trends in Cognitive Sciences 14:12, pages 561-569.
Crossref
Edmund T. Rolls. (2010) A computational theory of episodic memory formation in the hippocampus. Behavioural Brain Research 215:2, pages 180-196.
Crossref
Michael E. Hasselmo, Lisa M. Giocomo, Mark P. Brandon & Motoharu Yoshida. (2010) Cellular dynamical mechanisms for encoding the time and place of events along spatiotemporal trajectories in episodic memory. Behavioural Brain Research 215:2, pages 261-274.
Crossref
Graham Wordsworth Osborn. (2010) A Kalman filtering approach to the representation of kinematic quantities by the hippocampal-entorhinal complex. Cognitive Neurodynamics 4:4, pages 315-335.
Crossref
G. Perry, E. T. Rolls & S. M. Stringer. (2010) Continuous transformation learning of translation invariant representations. Experimental Brain Research 204:2, pages 255-270.
Crossref
Rosamund F. LangstonJames A. AingeJonathan J. CoueyCathrin B. CantoTale L. BjerknesMenno P. WitterEdvard I. MoserMay-Britt Moser. (2010) Development of the Spatial Representation System in the Rat. Science 328:5985, pages 1576-1580.
Crossref
Francesco Savelli & James J. Knierim. (2010) Hebbian Analysis of the Transformation of Medial Entorhinal Grid-Cell Inputs to Hippocampal Place Fields. Journal of Neurophysiology 103:6, pages 3167-3183.
Crossref
Mark D. Humphries & Tony J. Prescott. (2010) The ventral basal ganglia, a selection mechanism at the crossroads of space, strategy, and reward.. Progress in Neurobiology 90:4, pages 385-417.
Crossref
Michael E. Hasselmo. (2009) A model of episodic memory: Mental time travel along encoded trajectories using grid cells. Neurobiology of Learning and Memory 92:4, pages 559-573.
Crossref
Michael E. Hasselmo, Mark P. Brandon, Motoharu Yoshida, Lisa M. Giocomo, James G. Heys, Erik Fransen, Ehren L. Newman & Eric A. Zilli. (2009) A phase code for memory could arise from circuit mechanisms in entorhinal cortex. Neural Networks 22:8, pages 1129-1138.
Crossref
Balázs Ujfalussy, Tamás Kiss & Péter Érdi. (2009) Parallel Computational Subunits in Dentate Granule Cells Generate Multiple Place Fields. PLoS Computational Biology 5:9, pages e1000500.
Crossref
Dávid Samu, Péter Erős, Balázs Ujfalussy & Tamás Kiss. (2009) Robust path integration in the entorhinal grid cell system with hippocampal feed-back. Biological Cybernetics 101:1, pages 19-34.
Crossref
Bailu Si & Alessandro Treves. (2009) The role of competitive learning in the generation of DG fields from EC inputs. Cognitive Neurodynamics 3:2, pages 177-187.
Crossref
Sareh Saeidi & Farzad Towhidkhah. (2009) Different spatial scales in mapping from grid cells to place cells: A neural network model. Different spatial scales in mapping from grid cells to place cells: A neural network model.
Catherine E. Myers & Helen E. Scharfman. (2008) A role for hilar cells in pattern separation in the dentate gyrus: A computational approach. Hippocampus 19:4, pages 321-337.
Crossref
S. Saeidi & F. Towhidkhah. (2008) From Grid Cells to Place Cells: A Radial Basis Function Network Model. From Grid Cells to Place Cells: A Radial Basis Function Network Model.
Emilio Kropff & Alessandro Treves. (2008) The emergence of grid cells: Intelligent design or just adaptation?. Hippocampus 18:12, pages 1256-1269.
Crossref
Peter E. Welinder, Yoram Burak & Ila R. Fiete. (2008) Grid cells: The position code, neural network models of activity, and the problem of learning. Hippocampus 18:12, pages 1283-1300.
Crossref
Neil Burgess. (2008) Grid cells and theta as oscillatory interference: Theory and predictions. Hippocampus 18:12, pages 1157-1174.
Crossref
Robin M. Hayman & Kathryn J. Jeffery. (2008) How heterogeneous place cell responding arises from homogeneous grids-A contextual gating hypothesis. Hippocampus 18:12, pages 1301-1313.
Crossref
Hugh T. Blair, Kishan Gupta & Kechen Zhang. (2008) Conversion of a phase- to a rate-coded position signal by a three-stage model of theta cells, grid cells, and place cells. Hippocampus 18:12, pages 1239-1255.
Crossref
Edvard I. Moser & May-Britt Moser. (2008) A metric for space. Hippocampus 18:12, pages 1142-1156.
Crossref
Edmund T. Rolls, James M. Tromans & Simon M. Stringer. (2008) Spatial scene representations formed by self-organizing learning in a hippocampal extension of the ventral visual system. European Journal of Neuroscience 28:10, pages 2116-2127.
Crossref
André A. Fenton, Hsin-Yi Kao, Samuel A. Neymotin, Andrey Olypher, Yevgeniy Vayntrub, William W. Lytton & Nandor Ludvig. (2008) Unmasking the CA1 Ensemble Place Code by Exposures to Small and Large Environments: More Place Cells and Multiple, Irregularly Arranged, and Expanded Place Fields in the Larger Space. The Journal of Neuroscience 28:44, pages 11250-11262.
Crossref
Michael E. Hasselmo. (2008) Temporally structured replay of neural activity in a model of entorhinal cortex, hippocampus and postsubiculum. European Journal of Neuroscience 28:7, pages 1301-1315.
Crossref
Colin Molter & Yoko Yamaguchi. (2008) Entorhinal theta phase precession sculpts dentate gyrus place fields. Hippocampus 18:9, pages 919-930.
Crossref
Edvard I. Moser, Emilio KropffMay-Britt Moser. (2008) Place Cells, Grid Cells, and the Brain's Spatial Representation System. Annual Review of Neuroscience 31:1, pages 69-89.
Crossref
A. Treves, A. Tashiro, M.P. Witter & E.I. Moser. (2008) What is the mammalian dentate gyrus good for?. Neuroscience 154:4, pages 1155-1172.
Crossref
Colin Molter & Yoko Yamaguchi. (2008) Impact of temporal coding of presynaptic entorhinal cortex grid cells on the formation of hippocampal place fields. Neural Networks 21:2-3, pages 303-310.
Crossref
Michael E. Hasselmo & Mark P. Brandon. (2008) Linking Cellular Mechanisms to Behavior: Entorhinal Persistent Spiking and Membrane Potential Oscillations May Underlie Path Integration, Grid Cell Firing, and Episodic Memory. Neural Plasticity 2008, pages 1-12.
Crossref
Edmund T. Rolls. 2008. Handbook of Episodic Memory. Handbook of Episodic Memory 417 626 .
E.T. Rolls. 2008. Learning and Memory: A Comprehensive Reference. Learning and Memory: A Comprehensive Reference 641 665 .
Gergely Papp. 2008. Dynamic Brain - from Neural Spikes to Behaviors. Dynamic Brain - from Neural Spikes to Behaviors 131 136 .
Balázs Ujfalussy, Péter Erős, Zoltán Somogyvári & Tamás Kiss. 2008. From Animals to Animats 10. From Animals to Animats 10 123 136 .
Colin Molter & Yoko Yamaguchi. 2008. Advances in Cognitive Neurodynamics ICCN 2007. Advances in Cognitive Neurodynamics ICCN 2007 263 268 .
P. GAUSSIER, J. P. BANQUET, F. SARGOLINI, C. GIOVANNANGELI, E. SAVE & B. POUCET. (2007) A MODEL OF GRID CELLS INVOLVING EXTRA HIPPOCAMPAL PATH INTEGRATION, AND THE HIPPOCAMPAL LOOP. Journal of Integrative Neuroscience 06:03, pages 447-476.
Crossref
ALEXIS GUANELLA & PAUL F. M. J. VERSCHURE. (2007) PREDICTION OF THE POSITION OF AN ANIMAL BASED ON POPULATIONS OF GRID AND PLACE CELLS: A COMPARATIVE SIMULATION STUDY. Journal of Integrative Neuroscience 06:03, pages 433-446.
Crossref
Colin Molter & Yoko Yamaguchi. (2007) Organization of hippocampal place cells by enthorinal cortex grid cells. A functional role for the phase precession mechanism.. Organization of hippocampal place cells by enthorinal cortex grid cells. A functional role for the phase precession mechanism..
Edmund T. Rolls. 2007. Neurobiology of Learning and Memory. Neurobiology of Learning and Memory 191 242 .
Edmund T. Rolls & Raymond P. Kesner. (2006) A computational theory of hippocampal function, and empirical tests of the theory. Progress in Neurobiology 79:1, pages 1-48.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.