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References

1
G. E. Alexander and M. D. Crutcher., Trends in Neurosciences, 13:447--464, 1990.

2
S. Amari and M. A. Arbib. Competition and cooperation in Neural Nets. In J. Metzer, editor, Systems Neuroscience, 119--165, Academic Press, New York, 1977.

3
Arcuri and Murray. Pattern sensitivity to boundary and initial conditions in reaction-diffusion models. Mathematical Biology, 24:141--165, 1986.

4
R. Bapi, G. Bugmann, D. Levine, and J. G. Taylor.

KCL Internal Research Report, 1995.

5
R. Bapi and D. Levine. Modelling the Role of Frontal Lobes in Sequential Task Performance I, Neural Networks, 7:1167--1180, 1994.

6
D. Broadbent. Perception and Communication, Pergamon, England, 1958.

7
G. Bugmann, M. Denham, and J. G. Taylor. Sensory and memory based path planning in the egocentric reference frame of an autonomous mobile robot. Submitted to SAB '94, 1994.

8
L. Chelazzi, E. K. Miller, J. Duncan, and R. Desimone. A Neural Basis for Visual Search in Inferior Temporal Cortex. Nature, 363:345--347, 1993.

9
A. Chernjowsky, and J. Moody. Spontaneous Development of Modularity in Simple Cortical Models, Neural Computation, 2:334--354, 1991.

10
J. D. Cohen and D. Servan-Schreiber. Psychological Review, 99:45--77, 1992.

11
C. I. Connolly and J. B. Burns. A Model for the functionality of the striatum, Biological Cybernetics, 68:535--544, 1993.

12
R. Coultrop, R. Granger, and G. Lynch. A Cortical Model of Winner-Takes-All Competition via Lateral Inhibition, Neural Networks, 5:47--54, 1992.

13
E. Coutsias and B. A. Huberman. Long time behaviour of Ginzburg-Landau Systems far from equilibrium, Physical Review, 24:2592--2602, 1981.

14
R. Douglas and K. Martin. A Functional Microcircuit for Cat Visual Cortex, Journal of Physiology, 446:735--769, 1991.

15
J. Dowling. The Retina. Harvard University Press, 1987.

16
R. Durbin and G. Mitchison. A Dimension Reduction Framework for Understanding Cortical Maps, 343:644--647, 1990.

17
G. B. Ermentrout and J. Cowan. A Mathematical Theory of Visual Hallucination Patterns, Biological Cybernetics, 34:137--150, 1978.

18
J. M. Fuster. Inferotemporal Units in Selective Visual Attention and Short-Term Memory. Journal of Neurophysiology, 64:681--697, 1990.

19
J. M. Fuster. The Frontal Lobes, Currents in Biology, 3:160--165, 1993.

20
A. P. Georgopoulos, M. D. Crutcher, and A. B. Schwartz. Cognitive spatial-motor processes, Experimental Brain Research, 75:183--194, 1989.

21
P. S. Goldman-Rakic and L. D. Selemon. New frontiers in basal ganglia research. Trends in Neurosciences, 13:241--265, 1990.

22
S. Grossberg. Contour enhancements, short-term memory and constancies in reverberating neural networks, Studies in Applied Mathematics LII, 213--257, 1973.

23
M. H. Harries and D. I. Perret. Visual Processing of Faces in Temporal Cortex: Physiological Evidence for a Modular Organisation and Possible Anatomical Correlates, Journal of Cognitive Neuroscience, 3:9--23, 1991.

24
M. H. Hassoun. Associative Neural Memories. Oxford University Press, 1993.

25
S. Hastings and J. G. Taylor. Attractors and Wandering in the spiking ACTION Net. In preparation, 1995.

26
O. Hikosaka. Role of Basal Ganglia in Initiation of Voluntary Movements. In M. A. Arbib and S. Amari, editors, Dynamical Interactions in Neural Networks: Models and Data, Springer-Verlag, New York, 1989.

27
D. Hubel and T. Wiesel. Receptive Fields and Functional Architecture of Monkey Striate Cortex, Journal of Neurophysiology, 195:215--243, 1968.

28
I. Iguchi and D. N. Langenburg. Diffusive Quasiparticle Instability toward Multiple-Gap States in a Tunnel-Injected Nonequilibrium Superconductor, Physical Review Letters, 44:486--489, 1980.

29
C. Koch and S. Ullman. Shifts in Selective Visual Attention: Towards the Underlying Neural Circuitry, Human Neurobiology, 4:219--227, 1985.

30
B. Kosko. Adaptive Bidirectional Associative Memories, Applied Optics, 26:4947--4960, 1988.

31
S. Kosslyn. Seeing and Imaging in the Cerebral Hemispheres: A Cortical Approach, Psychological Review, 94:148--175, 1987.

32
D. La Berge. Thalamic and Cortical Mechanisms of Attention Suggested by Recent Positron Emission Tomographic Experiments, Journal of Cognitive Neuroscience, 2:358--372, 1990.

33
D. La Berge, E. Carter, and V. Brown. A Network Simulation of Thalamic Circuit Operations in Selective Attention, Neural Computation, 4:318--331, 1992.

34
A. V. Lukashin and A. P. Georgopolous. Directional Operators in the Motor Cortex modelled by a Neural Network of Spiking Neurons, Biological Cybernetics, 71:79--85, 1994.

35
K. D. Miller, J. B. Keller, and M. P. Stryker. Ocular Dominance Column Development: Analysis and Simulations, Science, 245:605--615, 1989.

36
O. Monchi and J. G. Taylor. A Neural Network model of the prefrontal loop that solves recency tasks, Submitted to ICANN '95.

37
O. Monchi and J. G. Taylor. A Model of the Prefrontal Loop that includes the Basal Ganglia, Submitted to WCNN '95.

38
J. D. Murray. Mathematical Biology, Springer-Verlag, Berlin, 1989.

39
J. A. Reggia, C. D'Autrechy, G. G. Sutton III, and M. Weinrich.

A Competitive Distribution Theory of Neocortical Dynamics, Neural Computation, 4:287--317, 1992.

40
W. Schultz and R. Romo. Role of primate basal ganglia and frontal cortex in the internal generation of movements. Experimental Brain Research, 91:363--384, 1992.

41
M. Steriade, L. Domich, and G. Oakson. Reticularis Thalami Neurons Revisited: Activity Changes During Shifts in States of Vigilance, Journal of Neuroscience, 6:68--81, 1986.

42
J. Tanji and K. Shima. Role for supplementary motor area cells in planning several movements ahead. Nature, 371:413--415, 1994.

43
J. G. Taylor. A Silicon Model of Vertebrate Retinal Processing, Neural Networks, 3:171-178, 1990.

44
J. G. Taylor. Towards a Neural Network Model of the Mind, Neural Network World, 6:797--812, 1992.

45
J. G. Taylor and F. N. Alavi. A Simulation of the Gated Thalamo-Cortical Model, in I. Aleksander and J. G. Taylor, Artificial Neural Networks 2, Elsevier, 929--931, 1992.

46
J. G. Taylor and F. N. Alavi. A Global Competitive Network for Attention, Neural Network World, 5:477--502, 1993.

47
J. G. Taylor and F. N. Alavi. Mathematical Analysis of a Global Network. In J. G. Taylor, editor, Mathematical Approaches to Neural Networks, Elsevier, 341--382, 1993.

48
J. G. Taylor and F. N. Alavi. A Global Competitive Neural Network. Biological Cybernetics, 72:233--248, 1995.

49
J. G. Taylor and N. Taylor. In preparation, 1995.

50
New frontiers in basal ganglia research. Trends in Neurosciences, 13:241--265, 1990.

51
C. von der Malsburg and W. Schneider. A Neural Cocktail-Party Processor, Biological Cybernetics, 54:29--40, 1986.

52
D. Zipser. Recurrent Network Model of the Neural Mechanism of Short-Term Active Memory. Neural Computation, 3:179--193, 1991.

53
D. Zipser, B. Kehoe, G. Littlewort, and J. Fuster. A Spiking Network Model of Short-Term Active Memory. Journal of Neuroscience, 13:3406--3420, 1993


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Next: About this document Up: A Basis for Long-Range Previous: Conclusions