Brain Systems involved in Memory, Spatial Function, and Navigation
Update: The following spatial view cell papers have firing rate plots in colour: 237, 244, 247, 256 and 399.
673.
|
Rolls, E. T. and Wirth, S. (2023) Hippocampal system neurons encoding views in different species: Introduction to the Special Issue of Hippocampus 2023. Hippocampus 33: 445-447. doi: 10.1002/hipo.23538
|
672.
|
Rolls, E. T. (2023) Hippocampal spatial view cells, place cells, and concept cells: view representations. Hippocampus 33: 667-687. doi: 10.1002/hipo.23536 Supplementary Material
|
662.
|
Rolls, E. T. (2023) Hippocampal spatial view cells for memory and navigation, and their underlying connectivity in humans. Hippocampus 33: 533-572. doi: 10.1002/hipo.23467. Supplementary Material: Spatial view cell az033.mp4 Spatial view cell av232.mp4 Spatial view cell av191.mp4
|
661.
|
Rolls, E. T., Wirth,S.,
Deco,G., Huang,C-C. and Feng,J. (2023) The human posterior cingulate,
retrosplenial and medial parietal cortex effective connectome, and
implications for memory and navigation. Human Brain Mapping 44: 629-655. doi: 10.1002/hbm.26089. Supplementary Material
|
660.
|
Rolls, E. T., Deco,G., Huang,C-C. and Feng,J. (2022) Prefrontal and somatosensory-motor cortex effective connectivity in humans. Cerebral Cortex doi: 10.1093/cercor/bhac391. Supplementary Material
|
657.
|
Rolls,
E. T. (2022) The hippocampus, ventromedial prefrontal cortex, and
episodic and semantic memory. Progress in Neurobiology 217: 102334. doi:
10.1016/j.pneurobio.2022.102334
|
656.
|
Rolls, E. T., Deco,G.,
Huang,C-C. and Feng,J. (2022) Multiple cortical visual streams in
humans. Cerebral Cortex doi: 10.1093/cercor/bhac276. Supplementary Material
|
655.
|
Rolls, E. T., Deco,G.,
Huang,C-C. and Feng,J. (2022) The human posterior parietal cortex:
effective connectome, and its relation to function. Cerebral Cortex doi: 10.1093/cercor/bhac266. Supplementary Material
|
649.
|
Rolls, E. T., Deco,G.,
Huang,C-C. and Feng,J. (2022) The human orbitofrontal cortex, vmPFC,
and anterior cingulate cortex effective connectome: emotion, memory,
and action. Cerebral Cortex doi: 10.1093/cercor/bhac070.
|
647.
|
Rolls, E. T., Deco,G., Huang,C-C. and Feng,J. (2022) The effective connectivity of the human hippocampal memory system. Cerebral Cortex 32: 3706-3725. doi: 10.1093/cercor/bhab442. Supplementary Material Graphical Abstract
|
644.
|
Ma,Q., Rolls, E. T.,
Huang,C-C., Cheng,W. and Feng,J. (2022) Extensive cortical functional
connectivity of the human hippocampal memory system. Cortex 147: 83-101. doi: 10.1016/j.cortex.2021.11.014. Supplementary Material
|
643.
|
Rolls, E. T. (2021) On pattern separation in the primate, including human, hippocampus. Trends in Cognitive Sciences 25: 920-922. doi: 10.1016/j.tics.2021.07.004.
|
640.
|
Rolls, E. T. (2021) The
connections of neocortical pyramidal cells can implement the learning
of new categories, attractor memory, and top-down recall and attention. Brain Structure and Function 226: 2523-2536. doi: 10.1007/s00429-021-02347-z. Matlab Code
|
635.
|
Huang,C-C., Rolls, E. T.,
Hsu,C-C.H., Feng,J. and Lin,C-P. (2021) Extensive cortical connectivity
of the human hippocampal memory system: beyond the ‘what’ and ‘where’
dual stream model. Cerebral Cortex 31: 4652-4669. doi: 10.1093/cercor/bhab113. Supplementary Material
|
633.
|
Rolls, E. T. (2021) Neurons including hippocampal spatial view cells, and navigation in primates including humans. Hippocampus 31: 593-611. doi: 10.1002/HIPO.23324. Supplementary Material Programs and Videos Video of navigation with spatial view cells
|
625.
|
Feng,R., Rolls, E. T.,
Cheng,W. and Feng,J. (2020) Hypertension is associated with reduced
hippocampal connectivity and impaired memory. EBioMedicine 61: 103082. Supplementary Material
|
614.
|
Rolls, E. T. (2019) The
cingulate cortex and limbic systems for action, emotion, and memory.
Chapter 2 pp 23-37 in Handbook of
Clinical Neurology: Vol 166. Cingulate Cortex. B. A. Vogt (ed.).
Elsevier: New York. doi: 10.1016/B978-0-444-64196-0.00002-9.
|
613.
|
Rolls, E. T. (2019) Attractor network dynamics, transmitters, and the memory and cognitive changes in aging. Chapter 14 pp 203-225 in Cognitive Changes and the Aging Brain, Eds. K.M.Heilman and S.E.Nadeau. Cambridge University Press: Cambridge. doi: 10.1017/9781108554350.
|
612.
|
Rolls,
E. T. (2020) Spatial
coordinate transforms linking the allocentric
hippocampal and egocentric parietal primate brain systems for memory,
action in space, and navigation. Hippocampus 30: 332-353.
|
606.
|
Rolls, E. T. (2019) The
cingulate cortex and limbic systems for emotion, action, and memory
Brain Structure and
Function 224: 3001-3018. Supplementary
Material.
|
605.
|
Rolls, E. T. and Mills, P.
(2019) The
generation of time in the hippocampal memory system. Cell
Reports 28: 1649-1658. doi: 10.1016/j.celrep.2019.07.042. Press
release.
|
595.
|
Rolls, E. T. (2018) A
scientific theory of ars memoriae: spatial view cells in a continuous
attractor with linked items. Pp 145-163 in: Les arts de la mémoire et les images
mentales. Collège de France: Paris. doi: 10.4000/books.cdf.5552.
|
594.
|
Rolls, E. T. and Wirth, S.
(2018) Spatial
representations in the primate hippocampus, and their functions in
memory and navigation. Progress
in Neurobiology 171: 90-113. Supplementary
Material. Spatial view cell az033.mp4
Spatial view cell av232.mp4 Spatial view cell av191.mp4
|
590.
|
Cheng, W., Rolls, E. T.,
Qiu, J., Xie, X., Lyu, W., Li, Y., Huang, C. C., Yang, A. C., Tsai, S.
J., Lyu, F., Zhuang, K., Lin, C. P., Xie, P. and Feng, J. (2018) Functional
connectivity of the human amygdala in health and in
depression. Social, Cognitive,
and Affective Neuroscience 13: 557-568.
|
588.
|
Cheng, W., Rolls, E. T.,
Qiu, J., Xie, X., Wei, D., Huang, C-C., Yang, A. C., Tsai, S.-J., Li,
Q., Meng, J., Lin, C.-P., Xie, P. and Feng, J. (2018) Increased
functional connectivity of the posterior cingulate cortex with the
lateral orbitofrontal cortex in depression. Translational Psychiatry 8: 90.
|
584.
|
Rolls, E. T. (2018) The
storage and recall of memories in the hippocampo-cortical system. Cell and Tissue Research 373:
577-604. Supplementary
Material.
|
581.
|
Rolls, E. T. and Mills,
W.P.C. (2017) Computations
in the deep vs superficial layers of the cerebral cortex. Neurobiology of Learning and Memory
145: 205-221.
|
579.
|
Rolls,
E. T. (2019) The
orbitofrontal cortex and emotion in health and disease, including
depression. Neuropsychologia
128: 14-43.
|
575.
|
Deng,W.,
Rolls, E. T., Ji,X., Robbins, T. W., Banaschewski,T., Bokde,A.,
Bromberg,U., Buechel,C., Desrivières,S., Conrod,P., Flor,H., Frouin,V.,
Gallinat,J., Garavan,H., Gowland,P., Heinz,A., Ittermann,B.,
Martinot,J-L., Lemaitre,H., Nees,F., Papadopoulos Orfanos,D.,
Poustka,L., Smolka,M.N., Walter,H., Whelan,R., Schumann,G. and Feng,J.
(2017) Separate
neural systems for behavioral
change and for emotional responses to failure during behavioral
inhibition. Human Brain Mapping
38: 3527-3537. |
573.
|
Rolls,E.T. (2017) Computational
models of hippocampal functions. In Menzel, R. (ed) Learning Theory and Behavior, Vol 1
of Learning and Memory: A
Comprehensive Reference, Second Edition:Ed. J.H.Byrne, pp.
557-578. Academic Press: Oxford.
doi 10.1016/B978-0-12-809324-5.21025-0. Also Reference Module in
Neuroscience and Biobehavioral Psychology. |
572.
|
Rolls,
E.T. (2017) The
roles of the orbitofrontal cortex via the habenula in
non-reward and depression, and in the responses of serotonin and
dopamine neurons. Neuroscience
and Biobehavioral Reviews 75: 331-334. |
571.
|
Rolls, E.T. (2017) A
scientific theory of ars memoriae: spatial view cells in a continuous
attractor network with linked items. Hippocampus 27: 570-579. |
567.
|
Rolls, E. T. (2016) Hippocampus: from spatial
processing to episodic memory. Chapter 18 pp. 533-558 in From Neuron to Cognition via Computational
Neuroscience, Eds. Arbib,M.A. and Bonaiuto,J.J. MIT Press:
Cambridge, MA. |
564.
|
Cheng,
W., Rolls,E.T., Qiu,J., Liu,W., Tang,Y., Huang,C-C., Wang, XF.,
Zhang,J., Lin,W., Zheng,L., Pu, JC., Tsai,S-J., Yang,AC.,
Lin,C-P.,
Wang,F., Xie,P. and Feng,J. (2016) Medial
reward and lateral
non-reward orbitofrontal cortex circuits change in opposite directions
in depression. Brain 139:
3296-3309. Supplementary
Material. |
562.
|
Rolls, E. T. and Deco, G.
(2016) Non-reward
neural mechanisms in the orbitofrontal cortex. Cortex 83: 27-38.
|
559.
|
Rolls, E. T. (2016) A
non-reward attractor theory of depression. Neuroscience and Biobehavioral Reviews
68: 47-58.
|
555.
|
Rolls, E. T. (2016) Pattern
completion and pattern separation mechanisms in the hippocampus.
Chapter 4 pp 77-113 in: The
Neurobiological Basis of Memory: A System,
Attribute, and Process Analysis. Eds. P.A.Jackson, A.A.Chiba,
R.F.Berman and M.E.Ragozzino. Springer: Switzerland.
|
553.
|
Rolls, E. T. (2015) The
neuronal representation of information in the human brain. Brain 138: 3459-3462.
|
550.
|
Rolls, E. T. (2016) Pattern
separation, completion, and categorisation in the hippocampus and
neocortex. Neurobiology of
Learning and Memory 129: 4-28. Introduction
to Special Issue of NLM
|
545.
|
Rolls, E. T. (2015) Diluted
connectivity in pattern
association networks facilitates the recall of information from the
hippocampus to the neocortex. Progress
in Brain Research 219: 21-43.
|
540.
|
Rolls,
E.T. and Deco, G. (2015) Stochastic
cortical neurodynamics underlying
the memory and cognitive changes in aging. Neurobiology of Learning and
Memory 118: 150-161. |
539.
|
Kesner,R.P.
and Rolls,E.T. (2015) A
computational theory of hippocampal function,
and tests of the theory: new developments. Neuroscience and Biobehavioral Reviews
48: 92-147. |
537.
|
Rolls, E. T. and Deco, G. (2015) Networks
for memory, perception, and decision-making, and beyond to how the
syntax for language might be implemented in the brain. Brain Research 1621: 316-334. |
531.
|
Rolls,E.T. (2015) Limbic
systems for emotion and for memory, but no single limbic system. Cortex 62: 119-157. |
529.
|
Rolls,E.T. (2013) The
mechanisms for pattern completion and pattern separation in the
hippocampus. Frontiers in
Systems Neuroscience 7: 74. doi: 10.3389/fnsys.2013.00074. |
527.
|
Rolls,E.T. (2013) A
quantitative theory of the functions of the hippocampal CA3 network in
memory. Frontiers in Cellular
Neuroscience 7: 98. |
523.
|
Rolls, E. T., Dempere-Marco,L. and Deco, G. (2013) Holding
multiple items in short term memory: a neural mechanism. PLoS ONE 8(4): e61078. |
521.
|
Walters,D.M., Stringer,S.M. and Rolls,E .T. (2013)
Path integration of head direction: updating a packet of neural
activity at the correct speed using axonal conduction delays. PLoS ONE 8: e58330. |
515.
|
Rolls,E.T. (2012) Advantages
of dilution in the connectivity of attractor networks in the brain.
Biologically Inspired
Cognitive Architectures 1: 44-54.
http://dx.doi.org/10.1016/j.bica.2012.03.003. |
508.
|
Rolls,E.T. and Treves.A. (2011) The
neuronal encoding of information in the brain. Progress in Neurobiology 95:
448-490. |
507.
|
Webb, T.J., Rolls, E.T., Deco, G. and Feng, J. (2011) Noise
in attractor networks in the brain produced by graded firing rate
representations. PLoS One
6: e23630. |
504.
|
Rolls,E.T. and Webb, T.J. (2012) Cortical
attractor network dynamics with diluted connectivity. Brain Research 1434: 212-225. |
502.
|
Martinez-Garcia, M., Rolls,E.T., Deco,G. and Romo,R.
(2011) Neural
and computational mechanisms of postponed decisions. Proceedings of the National Academy of
Sciences (USA): 108: 11626-11631. Supplementary
Material. |
500.
|
Rolls,E.T. and Deco,G. (2011) Prediction
of decisions from noise in the brain before the evidence is provided.
Frontiers in Neuroscience
5: 33 (1-11). |
498.
|
Rolls,E.T. (2011) David
Marr’s Vision: floreat computational neuroscience. Brain 134: 913-916. |
496.
|
Rolls,E.T., Deco,G. and Winterer,G. (2011) A
computational neuroscience approach to schizophrenia: working memory
and attentional deficits. Archives
of General Psychiatry:
http://archpsyc.ama-assn.org/cgi/eletters/67/6/570#14034. |
491.
|
Smerieri,A., Rolls,E.T. and Feng,J. (2010) Decision
time, slow inhibition, and theta rhythm. Journal of Neuroscience 30:
14173-14181. |
490.
|
Rolls,E.T. and Deco,G. (2011) A
computational neuroscience approach to schizophrenia and its onset.
Neuroscience and
Biobehavioral Reviews 35: 1644-1653. |
485.
|
Perry, G., Rolls, E. T. and Stringer, S. M. (2010) Continuous
transformation learning of translation invariant representations. Experimental Brain Research 204:
255-270. |
479.
|
Rolls,E.T. (2010) A
computational theory of episodic memory formation in the hippocampus.
Behavioural Brain Research
215: 180-196. |
477.
|
Deco,G., Rolls,E.T., and Romo,R. (2010) Synaptic
dynamics and decision-making. Proceedings
of the National Academy of Sciences 107:7545-7549. |
476. |
Rolls,E.T. (2010) Attractor
networks. WIREs Cognitive Science
1: 119-134. |
463.
|
Deco,G., Rolls, E.T. and Romo,R. (2009). Stochastic
dynamics as a principle of brain function. Progress in Neurobiology 88: 1-16. |
455.
|
Rolls,E.T., Tromans, J.
and Stringer,S.M. (2008). Spatial
scene representations formed by self-organizing learning in a
hippocampal extension of the ventral visual system. European Journal of Neuroscience 28:
2116-2127.
|
453.
|
Rolls,E.T. (2008) The
primate hippocampus and episodic memory. Chapter 4.2, pp. 417-438 in Handbook of Episodic Memory, Eds.
E.Dere, A.Easton, L.Nadel and J.P.Huston. Elsevier: Amsterdam.
|
450.
|
Rolls,E.T., Loh,M.,
Deco,G. and Winterer,G. (2008) Computational
models of schizophrenia
and dopamine modulation in the prefrontal cortex. Nature Reviews Neuroscience 9:
696-709.
|
449.
|
Rolls,E.T., Loh,M. and
Deco,G. (2008) An attractor
hypothesis of obsessive-compulsive
disorder. European Journal of
Neuroscience 28: 782-793.
|
448.
|
Deco,G. and Rolls, E.T.
(2008) Neural mechanisms of visual memory: a neurocomputational
perspective. Chapter 8 pp 247-289 in S. J. Luck and A. Hollingworth
(eds.) Visual Memory.
Oxford University Press: Oxford.
|
447.
|
Rolls,E.T. (2008)
Computational models of hippocampal functions. Pp. 641-666 in Learning
Theory and Behavior, Ed. R.Menzel. Vol 1 of Learning and Memory: A Comprehensive
Reference, Ed. J.Byrne. Elsevier: Oxford.
|
447a
|
Rolls,E.T. (2009)
Computational models of hippocampal functions. Chapter 16, pp. 331-355
in Concise Learning and Memory: The
Editor's Selection, Ed. J.Byrne. Elsevier: Oxford.
|
439.
|
Rolls,E.T. (2008) Spatial
view cells in the primate hippocampus, and memory. Chapter 13, pp.
192-217 in Hippocampal Place Fields:
Relevance to Learning and Memory, Ed. S.J.Y. Mizumori. Oxford
University Press: Oxford.
|
436.
|
Loh,M., Rolls,E.T. and
Deco,G. (2007) Statistical
fluctuations in attractor networks related
to schizophrenia. Pharmacopsychiatry
40: S78-84.
|
433.
|
Rolls,E.T. (2007) An
attractor network in the hippocampus: theory and neurophysiology. Learning and Memory 14: 714-731.
|
431.
|
Loh,M., Rolls,E.T. and
Deco,G. (2007) A dynamical
systems hypothesis of schizophrenia. PLoS Computational Biology 3(11):
e228. doi:10.1371/journal.pcbi.0030228
|
429.
|
Rolls, E. T. (2007) Memory
systems: multiple systems in the brain and their interactions. Chapter
59, pp. 345-351 in Science of
Memory: Concepts, Eds. H.L. Roediger, Y. Dudai and S.M.
Fitzpatrick. Oxford University Press: New York.
|
424.
|
Rolls,E.T., McCabe,C. and
Redoute,J. (2008) Expected
value, reward outcome, and temporal difference error representations in
a probabilistic decision task. Cerebral
Cortex 18: 652-663..
|
421.
|
Rolls, E. T. (2007)
Computations in memory systems in the brain. Chapter 6 pp. 191-242 in Neurobiology of Learning and Memory
(2nd edition), Eds. R. P. Kesner and J. L. Martinez Jr. Elsevier:
San Diego.
|
419.
|
Franco,L., Rolls,E.T.,
Aggelopoulos,N.C. and Jerez,J.M. (2007) Neuronal selectivity,
population sparseness, and ergodicity in the inferior temporal visual
cortex. Biological Cybernetics
96: 547-560.
|
415.
|
Stringer,S.M. and
Rolls,E.T. (2006) Self-organizing
path integration using a linked
continuous attractor and competitive network: path integration of head
direction. Network: Computation
in
Neural Systems 17: 419-445.
|
413.
|
Rolls,E.T. and
Stringer,S.M. (2007) Invariant
global motion recognition in the dorsal
visual system: a unifying theory. Neural
Computation 19: 139-169.
|
411.
|
Rolls, E. T.,
Stringer,S.M. and Elliot,T. (2006) Entorhinal cortex grid
cells can map to hippocampal place cells by competitive learning. Network: Computation in Neural Systems
17: 447-465.
|
408.
|
Rolls,E.T. (2006) Neurophysiological
and
computational analyses of the primate
presubiculum, subiculum and related areas. Behavioural Brain Research 174:
289-303.
|
403.
|
Rolls,E.T. and Kesner,R.P.
(2006) A computational theory of
hippocampal function, and empirical tests of the theory. Progress in Neurobiology 79: 1-48.
|
399.
|
Rolls,E.T. and Xiang,J-Z.
(2006) Spatial view cells in
the primate hippocampus, and memory
recall. Reviews in the
Neurosciences
17: 175-200.
|
393.
|
Rolls,E.T. and
Stringer,S.M. (2005) Spatial
view cells in the hippocampus, and their idiothetic update based on
place and head direction. Neural
Networks 18: 1229-1241.
|
391.
|
Deco,G. and Rolls,E.T.
(2005) Attention, short term
memory, and action selection: a unifying theory. Progress in Neurobiology 76:
236-256.
|
389.
|
Rolls,E.T.,
Browning,A.S., Inoue,K. and Hernadi,S. (2005) Novel visual stimuli
activate
a population of neurons in the primate orbitofrontal cortex. Neurobiology of Learning and Memory
84: 111-123.
|
388.
|
Rolls,E.T., Franco, L. and
Stringer S. M. (2005) The
perirhinal cortex and long-term
familiarity memory. Quarterly
Journal of Experimental Psychology 58B: 234–245.
|
387.
|
Rolls,E.T., and Xiang,J-Z.
(2005) Reward - spatial view
representations and learning in the primate hippocampus. Journal of Neuroscience 25:
6167-6174.
|
386.
|
Rolls,E.T. (2005) Head
direction and spatial view cells in
primates, and brain mechanisms for path integration. Ch. 14, pp.
299-318 in Head Direction Cells and
the Neural Mechanisms of Spatial Orientation. S.I.
Wiener and J. Taube, eds., MIT Press: Cambridge, MA.
|
383.
|
Wilson,F.A.W. and
Rolls,E.T. (2005) The primate
amygdala and reinforcement: a dissociation between rule-based and
associatively-mediated memory revealed in amygdala neuronal activity.
Neuroscience 133:
1061-1072.
|
380.
|
Rolls,E.T., Xiang,J-Z. and
Franco,L. (2005) Object, space
and object-space representations in the
primate hippocampus. Journal of
Neurophysiology 94: 833-844..
|
375.
|
Rolls, E. T. and Stringer,
S. M. (2004). Neurophysiology of the primate hippocampus leading
to a model of its functions in episodic and spatial memory. Proceedings of the IEEE International
Joint Conference on Neural Networks 1:636-642.
|
374.
|
Deco,G. and Rolls,E.T.
(2005) The role of short term memory in visual attention. Ch 100 pp.
610-617 in The Neurobiology of
Attention, Eds. L.Itti, G.Rees and J.K.Tsotsos. Elsevier Press:
San Diego.
|
372.
|
Deco,G. and Rolls,E.T.
(2005) Sequential memory: a
putative neural and synaptic dynamical
mechanism. Journal of Cognitive
Neuroscience 17: 294-307.
|
370
|
Stringer,S.M., Rolls,E.T.
and Trappenberg,T.P. (2005) Self-organizing
continuous attractor
network models of hippocampal spatial view cells. Neurobiology of Learning and Memory
83: 79-92.
|
364.
|
Deco,G. and Rolls,E.T.
(2005) Synaptic and spiking
dynamics underlying reward reversal in the orbitofrontal cortex. Cerebral Cortex, 15: 15-30.
|
362.
|
Berlin,H., and Rolls, E.T.
(2004) Time perception,
impulsivity, emotionality, and personality in self-harming Borderline
Personality Disorder patients. Journal
of Personality Disorders 18: 358-378.
|
360.
|
Deco,G., Rolls,E.T., and
Horwitz,B.(2004) “What”
and
“where” in visual working memory: a computational neurodynamical
perspective for integrating fMRI and single-neuron data. Journal of Cognitive Neuroscience
16: 683-701.
|
354.
|
Hornak, J., O’Doherty, J,
Bramham, J., Rolls, E.T., Morris, R.G., Bullock,P.R. and Polkey, C.E.
(2004). Reward-related
reversal learning after surgical excisions in orbitofrontal and
dorsolateral prefrontal cortex in humans. Journal of Cognitive Neuroscience
16: 463-478.
|
353.
|
Berlin,H., Rolls, E.T.,
and Kischka,U. (2004) Impulsivity,
time perception, emotion, and reinforcement sensitivity in patients
with orbitofrontal cortex lesions. Brain, 127: 1108-1126.
|
345.
|
Stringer,S.M., Rolls,E.T. and
Trappenberg,T.P. (2004) Self-organising
continuous attractor networks with multiple activity packets, and the
representation of space. Neural Networks 17: 5-27.
|
343.
|
Hölscher,C., Rolls,E.T. and
Xiang,J.-Z. (2003) Perirhinal
cortex neuronal activity related to long-term familiarity memory in the
macaque. European Journal of Neuroscience 18: 2037-2046. |
340.
|
Rolls,E.T. (2004) The operation
of memory systems in the brain. Ch 16, pp. 491-534 in Computational
Neuroscience: A Comprehensive Approach, Ed. J. Feng. Chapman and
Hall/CRC: London.
|
339.
|
Deco,G. and Rolls,E.T. (2003) Attention
and working memory: a
dynamical model of neuronal activity in the prefrontal cortex.
European
Journal of Neuroscience 18: 2374-2390.
|
337.
|
Kringelbach,M.L. and Rolls,E.T.
(2003) Neural correlates
of rapid reversal learning in a simple model of human
social interaction. Neuroimage 20: 1371-1383.
|
323. |
Stringer,S.M.,
Rolls,E.T., Trappenberg,T.P. and de Araujo, I.E. (2003) Self-organising
continuous attractor
networks and motor function. Neural Networks 16: 161-182. |
317. |
Hölscher,C.
and Rolls,E.T. (2002) Perirhinal
cortex neuronal activity is actively related to working memory in the
macaque. Neural Plasticity 9: 41-51. |
309. |
Stringer,S.M.,
Rolls,E.T., Trappenberg,T.P. and Araujo,I.E.T. (2002) Self-organising
continuous
attractor networks and path integration. Two-dimensional models of
place cells. Network: Computation in Neural Systems,
13:429-446. |
307. |
Stringer,S.M.,
Trappenberg,T.P., Rolls,E.T. and Araujo,I.E.T. (2002) Self-organising
continuous attractor networks and path integration. One-dimensional
models of head direction cells. Network: Computation in Neural
Systems, 13(2):217-42. |
306. |
Rolls,E.T.,
Stringer,S.M. and Trappenberg,T.P. (2002) A unified model of spatial
and
episodic memory. Proceedings of the Royal Society B 269:
1087-1093. |
305. |
Rolls,E.T.
(2002) Hippocampal spatial representations and navigation in primates.
Ch. 10, pp. 183-195 in The Neural Basis of Navigation: Evidence
from Single Cell Recording. Ed. P.E.Sharp. Kluwer: Boston. |
303. |
Buckley,M.J.,
Booth,M.C.A., Rolls,E.T. and Gaffan,D. (2001) Selective
perceptual
impairments following perirhinal cortex ablation. Journal of
Neuroscience 21: 9824-9836. |
300. |
Araujo,I.E.T.,
Rolls,E.T. and Stringer,S.M. (2001) A
view model which accounts for the spatial fields of hippocampal primate
spatial view cells and rat place cells. Hippocampus 11:
699-706. |
296. |
Panzeri,S.,
Rolls,E.T., Battaglia,F.P. and Lavis,R. (2001) Simulation studies of
the speed of recurrent processing. In Emergent Neural Computational
Architectures based on Neuroscience, Eds. S.Wermter, J.Austin and
D.J.Willshaw. Springer: Heidelberg. |
295. |
Renart,A.,
Moreno,R., de la Rocha, J., Parga,N. and Rolls,E.T. (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. |
294. |
Panzeri,S.,
Rolls,E.T., Battaglia,F. and Lavis,R. (2001) Speed of feedforward and
recurrent processing in multilayer networks of integrate-and-fire
neurons. Network:
Computation in Neural Systems 12: 423-440. |
293. |
Kesner,R.P. and
Rolls,E.T. (2001) Role of long
term synaptic modification in short term memory. Hippocampus 11:
240-250. |
290. |
Rolls,E.T. and
Stringer,S.M. (2001) Invariant
object recognition in the visual system with error correction and
temporal difference learning. Network: Computation in Neural
Systems, 12:111-129. |
289. |
Rolls,E.T. and
Stringer,S.M. (2001) A
model of the interaction between mood and memory. Network:
Computation in Neural Systems, 12: 89-109. |
287.
|
Rolls,E.T. (2001) Neuronal networks, synaptic
plasticity,
and memory systems in primates. Ch. 10, pp. 224-262 in Neuronal
Mechanisms of Memory Formation ed. C.Holscher. Cambridge
University Press: Cambridge.
|
286..
|
Rolls,E.T. (2000) Hippocampo-cortical
and cortico-cortical backprojections. Hippocampus 10:
380-388.
|
284.
|
Rolls,E.T. and Stringer,S.M. (2000) On the design of
neural
networks in the brain by genetic evolution. Progress in
Neurobiology 61: 557-579.
|
282.
|
Rolls,E.T. (2000) Memory
systems in the brain. Annual Review of Psychology 51:
599-630.
|
278.
|
Schultz,S., Panzeri,S., Rolls,E.T. and Treves,A. (2000)
Quantitative model analysis of a Schaffer collateral model. Ch. 14, pp.
257-272 in Information Theory and the Brain. eds. R.Baddeley,
P.Hancock and P.Foldiak. Cambridge University Press: Cambridge.
|
271.
|
Robertson,R.G., Rolls,E.T., Georges-François,P.
and Panzeri,S. (1999) Head
direction cells in the primate pre-subiculum. Hippocampus 9:
206-219.
|
268.
|
Renart,A., Parga,N. and Rolls,E.T. (1999) Associative
memory properties of
multiple cortical modules. Network 10: 237-255.
|
267.
|
Rolls,E.T. (1999) Spatial
view cells and the representation of place in the primate
hippocampus. Hippocampus 9: 467-480.
|
266.
|
Schultz,S. and Rolls,E.T. (1999) Analysis of information
transmission in the Schaffer collaterals. Hippocampus 9:
582-598.
|
264.
|
Treves,A., Georges-François,P., Panzeri,S.,
Robertson,R.G. and Rolls,E.T. (1999) The
metric
content of spatial views as represented in the primate hippocampus.
Pp.
239-247 in Neural Circuits and Neural Networks, Eds. V.Torre
and J.Nicholls. Springer: Berlin.
|
263.
|
Renart,A., Parga,N. and Rolls,E.T. (2000) A recurrent
model of the
interaction between the prefrontal cortex and inferior temporal cortex
in delay memory tasks. Advances in Neural Information
Processing Systems 12, 171-177, Eds. S.A.Solla, T.K.Leen and
K.-R.Mueller, MIT Press: Cambridge Mass.
|
261.
|
Panzeri,S., Treves,A., Schultz,S. and Rolls,E.T. (1999) On decoding the
responses of
a population of neurons from short time windows. Neural
Computation 11: 1553-1577.
|
258.
|
Renart,A., Parga,N. and Rolls,E.T. (1999) Backprojections in
the cerebral
cortex: implications for memory storage. Neural Computation 11:
1349-1388.
|
256.
|
Georges-François,P., Rolls,E.T. and
Robertson,R.G.
(1999) Spatial view
cells in the primate hippocampus: allocentric view not head direction
or eye position or place. Cerebral Cortex 9: 197-212.
|
254.
|
Fulvi Mari,C., Panzeri,S., Rolls,E.T. and Treves,A.
(2000) A quantitative model of information processing in CA1. Ch. 15,
pp. 273-289 in Information Theory and the Brain. eds.
R.Baddeley, P.Hancock and P.Foldiak. Cambridge University Press:
Cambridge.
|
253.
|
Rolls,E.T. (1999) The representation of space in the
primate hippocampus, and its role in memory. Ch. 17, pp. 320-344 in The
Hippocampal and Parietal Foundations of Spatial Cognition eds.
N.Burgess, K.J.Jeffrey and J.O’Keefe. Oxford University Press: Oxford.
|
247.
|
Robertson,R.G., Rolls,E.T. and
Georges-François,P.
(1998) Spatial
view cells
in the primate hippocampus: Effects of removal of
view details. Journal of Neurophysiology 79:
1145-1156.
|
245.
|
Parga,N. and Rolls,E.T. (1998) Transform invariant
recognition by
association in a recurrent network. Neural Computation 10:
1507-1525.
|
244.
|
Rolls,E.T., Treves,A., Robertson,R.G.,
Georges-François,P. and Panzeri,S. (1998) Information about
spatial view
in an ensemble of primate hippocampal cells. Journal of
Neurophysiology 79: 1797-1813.
|
239.
|
Rolls,E.T. (1997) Consciousness
in Neural Networks? Neural Networks 10: 1227-1240.
|
237.
|
Rolls,E.T., Robertson,R.G. and
Georges-François,P.
(1997) Spatial
view cells in the primate hippocampus. European
Journal of Neuroscience 9: 1789-1794.
|
235.
|
Treves,A., Rolls,E.T. and Simmen,M. (1997) Time for
retrieval in recurrent
associative memories. Physica D 107: 392-400.
|
233.
|
Rolls,E.T. (1997) Functions of the inferior temporal
cortex and hippocampus in memory. Pp. 223-251 in: Integrative and
Molecular Approach to Brain Function, eds. M.Ito and Y.Miyashita.
Elsevier: Amsterdam.
|
230.
|
Rolls,E.T. (1997) Brain mechanisms of vision, memory,
and
consciousness. Ch. 6, pp. 81-120 in: Cognition, Computation,
and Consciousness, ed. M.Ito, Y.Miyashita and E.T.Rolls.
Oxford University Press: Oxford.
|
228.
|
Rolls,E.T., Treves,A., Foster,D. and
Perez-Vicente,C. (1997) Simulation studies of the CA3
hippocampal subfield modelled as an attractor neural network. Neural
Networks 10:
1559-1569.
|
223.
|
Treves,A., Rolls,E.T. and Tovee,M.J. (1996) On the time
required for recurrent processing in the brain. Pp. 371-382 in Neurobiology:
Ionic Channels, Neurons, and the Brain, eds. V.Torre and F.Conti.
Plenum: New York.
|
222.
|
Simmen,M.W., Treves,A., and Rolls,E.T. (1996) Pattern
retrieval in
threshold-linear associative nets. Network 7: 109-122.
|
221.
|
Rolls,E.T. (1996) The representation of space in
the primate hippocampus, and its relation to memory. Pp. 203-227 in: Brain
Processes and Memory, eds. K.Ishikawa, J.L.McGaugh and H.Sakata.
Elsevier: Amsterdam.
|
219.
|
Rolls,E.T. (1996) The representation of space in
the primate hippocampus, and episodic
memory. Pp. 375-400 in: Perception, Memory and Emotion: Frontier in
Neuroscience,
edited by T.Ono, B.L. McNaughton, S. Molotchnikoff,
E.T. Rolls and H. Nishijo. Elsevier: Amsterdam.
|
217.
|
Treves,A., Barnes,C.A. and Rolls,E.T. (1996)
Quantitative
analysis of network models and of hippocampal data. Pp.
567-579 in: Perception, Memory and Emotion:
Frontier in Neuroscience, edited by T.Ono, B.L. McNaughton,
S. Molotchnikoff, E.T. Rolls and H. Nishijo. Elsevier: Amsterdam.
|
209.
|
Tovee,M.J., Rolls,E.T. and Ramachandran,V.S. (1996) Rapid
visual learning in neurones of the primate temporal visual
cortex. Neuroreport 7: 2757-2760.
|
207.
|
Rolls,E.T. (1996) Roles of Long Term Potentiation and
Long Term Depression in neuronal network operations in the brain.
Chapter 11,
pp. 223-250 in Cortical Plasticity: LTP and LTD, eds.
M.S.Fazeli and G.L.Collingridge. Bios: Oxford.
|
205.
|
Rolls,E.T. (1996) A
theory of hippocampal function in
memory. Hippocampus 6: 601-620.
|
202.
|
Rolls,E.T. and O'Mara,S.M. (1995) View-responsive
neurons
in the primate hippocampal complex. Hippocampus 5:
409-424.
|
200.
|
Rolls,E.T. (1995) A
model of the operation of the
hippocampus and entorhinal cortex in memory. International
Journal
of Neural Systems 6, Supplement: 51-70.
|
193.
|
Rolls,E.T. and Tovee,M.J. (1994) Processing speed in the
cerebral cortex and the neurophysiology of
visual masking. Proceedings of the Royal Society, B, 257:
9-15.
|
188.
|
Rolls,E.T., Hornak,J., Wade,D. and McGrath,J. (1994) Emotion-related
learning in patients with social
and emotional changes associated with
frontal lobe damage. Journal of Neurology, Neurosurgery and
Psychiatry 57: 1518-1524.
|
186.
|
Treves,A. and Rolls,E.T. (1994) A computational analysis
of the role of the hippocampus in memory. Hippocampus 4:
374-391.
|
185.
|
Rolls,E.T. (1994) Neurophysiological and neuronal
network
analysis of how the primate hippocampus functions in memory.
Pp. 713-744 in The Memory System of the Brain, ed.
J.Delacour. World Scientific: London.
|
184.
|
O'Mara,S.M., Rolls,E.T., Berthoz,A. and Kesner,R.P.
(1994) Neurons
responding to
whole-body
motion in the primate hippocampus. Journal of Neuroscience 14:
6511-6523.
|
182.
|
Rolls,E.T. and Treves,A. (1994) Neural
networks in the
brain involved in memory and recall. Progress in Brain Research
102:
335-341.
|
180.
|
Treves,A. and Rolls,E.T. (1993) The autoassociative
hypothesis places constraints on hippocampal
organization. Pp. 21-26 in Proceedings of the International
Conference on Neural Networks,
ed. S.Gielen. Springer: London.
|
178.
|
Rolls,E.T. and O'Mara,S. (1993) Neurophysiological and
theoretical analysis of how the hippocampus functions in memory. Ch.
17, pp. 276-300 in Brain Mechanisms of Perception and Memory: From
Neuron to Behavior, eds. T.Ono, L.R.Squire, M.E.Raichle,
D.I.Perrett and M.Fukuda. Oxford University Press: New York.
|
177.
|
Wilson,F.A.W. and Rolls,E.T. (1993) The
effects of
stimulus novelty and familiarity on neuronal activity in the amygdala
of monkeys performing recognition memory tasks. Experimental
Brain
Research 93: 367-382.
|
175.
|
Rolls,E.T. and Treves,A. (1993) Neural networks in the
brain involved in memory and recall. Proceedings of the
International Joint Conference on Neural Networks 1: 9-14.
|
173.
|
Rolls,E.T., Cahusac,P.M.B., Feigenbaum,J.D. and
Miyashita,Y. (1993) Responses
of single neurons in the hippocampus of
the macaque related to recognition memory. Experimental Brain
Research 93: 299-306.
|
171.
|
Cahusac,P.M.B., Rolls,E.T., Miyashita,Y. and Niki,H.
(1993) Modification
of the responses of
hippocampal neurons in the monkey during the learning of a conditional
spatial response task. Hippocampus 3: 29-42.
|
170.
|
Treves,A. and Rolls,E.T. (1992) Computational analysis
of
the operation of a real neuronal network in the brain: the
role of the hippocampus in memory. Pp. 891-898 in Artificial Neural
Networks 2, eds. I.Aleksander and J.Taylor. North-Holland:
Amsterdam.
|
163.
|
Treves,A. and Rolls,E.T. (1992) Computational
constraints
suggest the need for two distinct input systems to the hippocampal CA3
network. Hippocampus 2: 189-199.
|
161.
|
Rolls,E.T. (1992) Neurophysiology and functions of the
primate amygdala. Ch. 5, pp. 143-165 in The Amygdala, ed.
J.P.Aggleton. Wiley-Liss: New York.
|
159.
|
Rolls,E.T. (1991) Functions
of the primate hippocampus
in
spatial and non-spatial memory. Hippocampus 1: 258-261.
|
156.
|
Cahusac,P.M.B., Rolls,E.T. and Marriott,F.H.C. (1991) Potentiation
of
neuronal responses to natural
visual input paired with postsynaptic activation in the hippocampus of
the awake monkey. Neuroscience Letters 124: 39-43.
|
155.
|
Rolls,E.T. (1991) Functions of the primate hippocampus
in
spatial processing and memory. Pp. 353-376 in Brain and
Space, ed. J.Paillard. Oxford University Press: Oxford.
|
154.
|
Treves,A. and Rolls,E.T. (1991) What determines the
capacity of
autoassociative memories in the brain ? Network 2: 371-397.
|
153.
|
Rolls,E.T. (1991) Research directions in the neural
basis
of memory. In Cognitive Neuroscience: Research Directions in
Cognitive Science: European Perspectives, Vol. 4, pp. 127-142, eds.
G.A.Orban, W.Singer and N.O.Bernsen. Erlbaum: London.
|
152.
|
Feigenbaum,J.D. and Rolls,E.T. (1991) Allocentric
and
egocentric spatial information processing in
the hippocampal formation of the behaving primate. Psychobiology
19:
21-40.
|
151.
|
Rolls,E.T. (1990) Theoretical
and neurophysiological
analysis of the functions of the primate hippocampus in memory. Cold
Spring Harbor Symposia in Quantitative Biology 55: 995-1006.
|
150.
|
Rolls,E.T. and Treves,A. (1990) The relative advantages
of
sparse versus distributed encoding for associative neuronal networks in
the brain. Network 1: 407-421.
|
147.
|
Johnstone,S. and Rolls,E.T. (1990) Delay,
discriminatory,
and modality specific neurons in striatum and pallidum during
short-term memory tasks. Brain
Research 522: 147-151.
|
146.
|
Wilson,F.A.W. and Rolls,E.T. (1990) Learning
and memory
are reflected in the responses of reinforcement-related neurons in the
primate basal forebrain. Journal of Neuroscience 10:
1254-1267.
|
145.
|
Wilson,F.A.W. and Rolls,E.T. (1990) Neuronal responses
related to reinforcement in the primate basal forebrain. Brain
Research 509: 213-231.
|
144.
|
Wilson,F.A.W. and Rolls,E.T. (1990) Neuronal
responses
related to the novelty and familiarity of
visual stimuli in the substantia innominata,
diagonal band of Broca and periventricular region of the primate. Experimental
Brain
Research 80: 104-120.
|
143.
|
Treves,A. and Rolls,E.T. (1990) Neuronal networks in the
hippocampus involved in memory. Pp. 81-95 in Statistical Mechanics
of Neural Networks (Lecture Notes in Physics, 368), ed.
L.Garrido. Springer: Berlin.
|
142.
|
Rolls,E.T. (1990) Spatial memory, episodic memory, and
neuronal network functions in the hippocampus. Pp. 445-470 in The
Biology of Memory, eds. L.R.Squire and E.Lindenlaub. Schattauer
Verlag: Stuttgart and New York (Symposium Medicum Hoechst 23).
|
138.
|
Rolls,E.T. (1990) Principles underlying the
representation and storage of information in neuronal networks in the
primate hippocampus and cerebral cortex. Ch. 4, pp. 73-90 in An
Introduction to Neural and Electronic Networks, eds. S.F.Zornetzer,
J.L.Davis and C.Lau. Academic Press: San Diego.
|
137.
|
Rolls,E.T. (1990) Functions of neuronal networks in the
hippocampus and of backprojections in the cerebral cortex in memory.
Ch. 9, pp. 184-210
in Brain Organization and Memory: Cells,
Systems and Circuits, eds. J.L.McGaugh, N.M.Weinberger and G.Lynch.
Oxford University Press: New York.
|
136.
|
Rolls,E.T. (1990) Functions of the primate hippocampus
in
spatial processing and memory. Ch. 12, pp. 339-362 in Neurobiology
of Comparative Cognition,
eds. D.S.Olton and R.P.Kesner. L.Erlbaum: Hillsdale,N.J.
|
134.
|
Rolls,E.T. (1989) The representation and storage of
information in neuronal networks in the primate cerebral cortex and
hippocampus. Ch.
8, pp. 125-159 in The Computing Neuron, eds. R.Durbin, C.Miall
and G.Mitchison. Addison-Wesley: Wokingham, England.
|
133.
|
Rolls,E.T. (1989) Functions of neuronal networks in the
hippocampus and cerebral cortex in memory. Pp. 15-33 in Models of
Brain Function, ed. R.M.J.Cotterill. Cambridge University Press:
Cambridge.
|
132.
|
Rolls,E.T. (1989) Parallel distributed processing in the
brain: implications of the functional architecture of neuronal networks
in the hippocampus. Ch. 12, pp. 286-308 in Parallel Distributed
Processing: Implications for Psychology and Neurobiology, ed.
R.G.M.Morris. Oxford University Press: Oxford.
|
131.
|
Miyashita,Y., Rolls,E.T., Cahusac,P.M.B., Niki,H. and
Feigenbaum,J.D. (1989) Activity
of hippocampal neurons in the monkey
related to a conditional spatial response task. Journal of
Neurophysiology 61: 669-678.
|
130.
|
Cahusac,P.M.B., Miyashita,Y., and Rolls,E.T. (1989) Responses
of hippocampal formation neurons
in the monkey related to delayed spatial
response and object-place memory tasks. Behavioural Brain
Research
33: 229-240.
|
129.
|
Rolls,E.T., Miyashita,Y., Cahusac,P.M.B., Kesner,R.P.,
Niki,H., Feigenbaum,J. and Bach,L. (1989) Hippocampal
neurons in the monkey with
activity related to the place in which a stimulus is shown. Journal
of Neuroscience 9: 1835-1845.
|
128.
|
Rolls,E.T., Baylis,G.C., Hasselmo,M.E. and Nalwa,V.
(1989)
The effect of learning on the face-selective responses of
neurons in the cortex
in the superior temporal sulcus of the monkey. Experimental
Brain
Research 76: 153-164.
|
125.
|
Rolls,E.T. (1989) Functions
of neuronal networks in the
hippocampus and neocortex in memory. Ch. 13,
pp. 240-265 in Neural Models of Plasticity: Experimental and
Theoretical Approaches,
eds. J.H.Byrne and W.O.Berry. Academic
Press:
San Diego. This paper proposed that CA3 acting as an autoassociation
memory performs completion, and that the dentate performs pattern
separation. This paper also reported the discovery of spatial view cells, and how they respond in object-location memory tasks.
|
117.
|
Baylis,G.C. and Rolls,E.T. (1987) Responses
of neurons
in
the inferior temporal cortex in short term and serial recognition
memory tasks. Experimental Brain Research 65: 614-622.
|
111.
|
Rolls,E.T. (1987) Information
representation, processing
and storage in the brain: analysis at
the single neuron level. Pp. 503-540
in The Neural and Molecular Bases of Learning,
eds. J.-P.
Changeux and M.Konishi. Wiley: Chichester. This paper delivered to the
Dahlem Conference in 1985 in Berlin proposed that the CA3 is an
autocorrelation (or autoassociation) memory.
|
94.
|
Rolls,E.T. (1985) Neuronal activity related to different
types of memory in the primate. Pp. 237-250 in Perspectives on
Neuroscience, ed. Y.Tsukada. University of Tokyo Press: Tokyo.
|
93.
|
Rolls,E.T. (1985) Neuronal activity in relation to the
recognition of visual stimuli. Experimental Brain Research,
Supplement 11: 179-201. (Also pp. 203-213 in Pattern
Recognition Mechanisms, Pontificiae Academiae Scientiarum Scripta
Varia 54, eds. C.Chagas, R.Gattass
and C.G.Gross. Pontificia Academia Scientiarum: Rome, 1985.)
|
90.
|
Borsini,F. and Rolls,E.T. (1984) Role
of noradrenaline
and serotonin in the basolateral region of the amygdala in food
preferences and learned taste aversions in the rat. Physiology
and
Behavior 33: 37-43.
|
86.
|
Rolls,E.T. (1984) Neurophysiological investigations of
different types of memory in the primate. Pp. 269-278 in Neuropsychology
of Memory, eds. L.R.Squire and N.Butters. Guilford Press, New York.
|
83.
|
Rolls,E.T. (1983) Neuronal systems related to different
types of memory in the primate. Kaga
(Science) (Tokyo) 53: 260-269.
|
79.
|
Thorpe,S.J., Rolls,E.T. and Maddison,S. (1983) The
orbitofrontal cortex: neuronal activity in the
behaving monkey. Experimental Brain Research 49: 93-115.
|
74.
|
Rolls,E.T., Perrett,D.I., Caan,A.W. and Wilson,F.A.W.
(1982) Neuronal
responses related to visual recognition. Brain 105:
611-646.
|
65.
|
Rolls,E.T., Caan,A.W., Perrett,D.I. and Wilson,F.A.W.
(1981) Neuronal activity related to long-term memory. Acta
Neurologica Scandinavica, 64, Supplementum 89: 121-127.
|
64.
|
Rolls,E.T. (1981) Responses of amygdaloid neurons in the
primate. Pp. 383-393 in The Amygdaloid
Complex, ed. Y.Ben-Ari. Amsterdam:
Elsevier.
|
41.
|
Rolls,E.T., Perrett,D., Thorpe,S.J., Puerto,A.,
Roper-Hall,A. and Maddison,S. (1979) Responses
of neurons in area 7 of the parietal cortex to objects of different
significance. Brain Research 169: 194-198.
|
38.
|
Sanghera,M.K., Rolls,E.T. and Roper-Hall,A. (1979) Visual
responses of neurons in the dorsolateral amygdala of the
alert monkey. Experimental Neurology 63:
610-626.
|
32.
|
Rolls, E.T., Judge, S.J. and Sanghera, M. (1977) Activity
of neurones in the inferotemporal cortex of the alert monkey.
Brain
Research 130: 229-238.
|
27.
|
Mora, F., Rolls, E.T., and Burton, M.J. (1976) Modulation
during learning of the responses of neurones in the lateral
hypothalamus to the sight of food. Experimental Neurology
53: 508-519.
|
12.
|
Rolls, E.T. (1974) The
neural basis of
brain-stimulation reward. Progress in Neurobiology 3:
71-160.
|
10.
|
Rolls, B.J. and Rolls, E.T. (1973) Effects
of
lesions in the basolateral amygdala on fluid intake in the rat.
Journal
of Comparative and Physiological Psychology 83:
240-247.
|
9.
|
Rolls, E.T. and Rolls, B.J. (1973) Altered
food
preferences after lesions in the basolateral
region of the amygdala in the rat. Journal of Comparative
and
Physiological Psychology 83: 248-259
|
|