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[4] Aertsen A.M.H.J., Gerstein G.L., Habib M.K., and Palm G. (1989) Dynamics
of neuronal firing correlation: modulation of “effective connectivity”.
JNeu-
rophysiol
61:
900-917.
[5] Agmon-Snir H., Carr C.E., and Rinzel J. (1998) The role of dendrites in audi-
tory coincidence detection
Science
393:
268-272.
[6] Ahissar E., and Arieli A. (2001) Figuring space by time.
Neuron
32
: 185-201.
[7] Ahissar E., Sosnik R., and Haidarliu S. (2000) Transformation from temporal
to rate coding in a somatosensory thalamocortical pathway.
Nature
406
: 302-
306.
[8] Barlow J.S. (1993)
The Electroencephalogram: Its Patterns and Origins.
Cam-
bridge, MA: MIT Press.
[9] Bazhenov M., Stopfer M., Rabinovich M., Abarbanel H.D.I., Sejnowski T.J.,
and Laurent G. (2001) Model of cellular and network mechanisms for odor-
evoked temporal patterning in the locust antennal lobe.
Neuron
30:
569-581.
[10] Bazhenov M., Stopfer M., Rabinovich M., Huerta R., Abarbanel H.D.I., Se-
jnowski T.J., and Laurent G. (2001) Model of transient oscillatory synchro-
nization in the locust antennal lobe.
Neuron
30:
553-567.
[11] Bell A.J., Mainen Z.F., Tsodyks M., and Sejnowski T.J. (1995) 'Balancing' of
conductances may explain irregular cortical spiking. Technical Report INC-
9502, Institute for Neural Computation, UCSD, San Diego, CA, 92093-0523.
[12] Berg H.C. (1993)
Random Walks in Biology.
Princeton, NJ: Princeton Univer-
sity Press.
[13] Bernander O., Koch C., and Usher M. (1994) The effects of synchronized in-
puts at the single neuron level.
Neural Comput.
6:
622-641.
[14] Braitenberg V., and Sch uz A. (1997)
Cortex: Statistics and Geometry of Neu-
ronal Connectivity.
Berlin: Springer-Verlag.
[15] Brody C.D. (1999) Correlations without synchrony.
Neural Comput.
11:
1537-1551.
[16] Brosch M., and Schreiner C.E. (1999) Correlations between neural discharges
are related to receptive field properties in cat primary auditory cortex.
Eur. J.
Neurosci.
11:
3517-3530.
[17] Brunel N., and Hakim V. (1999) Fast global oscillations in networks of integrate-
and-fire neurons with low firing rates.
Neural Comput.
11:
1621-1671.
[18] Burkitt A.N., and Clark G.M. (1999) Analysis of integrate-and-fire neurons:
synchronization of synaptic input and spike output.
Neural Comput.
11:
871-901.
[19] Bush P., and Sejnowski T.J. (1996) Inhibition synchronizes sparsely connected
cortical neurons within and between columns in realistic network models.
J.
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