Discrimination measure of correlations in a population of neurons by using the Jensen-Shannon divergence

Montani, F.; Rosso, O.A.; Schultz, S.R.

doi:10.1063/1.2746745

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Montani, F.; Rosso, O.A.; Schultz, S.R. "Discrimination measure of correlations in a population of neurons by using the Jensen-Shannon divergence" (2007) 15th Conference on Nonequilibrium Statistical Mechanics and Nonlinear Physics. 913:184-189

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Abstract:

The significance of synchronized spikes fired by nearby neurons for perception is still unclear. To evaluate how reliably one can decide if a given response on the population coding of sensory information comes from the full distribution, or from the product of independent distributions from each cell, we used recorded responses of pairs of single neurons in primary visual cortex of macaque monkey (V1) to stimuli of varying orientation. Both trial-to-trial variability and synchrony were found to depend stimulus orientation and contrast in this data set (A. Kohn, and M. A Smith, J. Neurosci. 25 (2005) 3661). We used the Jensen-Shannon Divergence for fixed stimuli as a measure of discrimination between a pairs of correlated cells VI. The Jensen-Shannon divergence, can be consider as a measure distance between the corresponding probability distribution function associated with each spikes fired observed patterns. The Nemenman-Shafee-Bialek estimator was used in our entropy estimation in order to remove all possible bias deviation from our calculations. We found that the relative Jensen-Shannon Divergence (measured in relation to case in which all cell fired completely independently) decreases with respect to the difference in orientation preference between the receptive field from each pair of cells. Our finding indicates that the Jensen-Shannon Divergence may be used for characterizing the effective circuitry network in a population of neurons. © 2007 American Institute of Physics.

Registro:

Documento:	Conferencia
Título:	Discrimination measure of correlations in a population of neurons by using the Jensen-Shannon divergence
Autor:	Montani, F.; Rosso, O.A.; Schultz, S.R.
Ciudad:	Mar del Plata
Filiación:	Department of Bioengineering, Imperial College London, South Kensington London SW7 2AZ, United Kingdom Instituto de Cálculo, Facultad de Ciencias Exactas y Naturales, 1428 Ciudad Universitaria, Pabellon II, Buenos Aires, Argentina
Palabras clave:	Correlations; Discrimination measures; Jensen-Shannon divergence; Neuron populations; Visual cortex
Año:	2007
Volumen:	913
Página de inicio:	184
Página de fin:	189
DOI:	http://dx.doi.org/10.1063/1.2746745
Título revista:	15th Conference on Nonequilibrium Statistical Mechanics and Nonlinear Physics
Título revista abreviado:	AIP Conf. Proc.
ISSN:	0094243X
PDF:	https://bibliotecadigital.exactas.uba.ar/download/paper/paper_0094243X_v913_n_p184_Montani.pdf
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0094243X_v913_n_p184_Montani

Referencias:

Toyama, K., Kimura, M., Tanaka, K., (1981) J. Neurophysiol, 46, pp. 191-201
Toyama, K., Kimura, M., Tanaka, K., (1981) J. Neurophysiol, 46, pp. 202-214
Michalski, A., Gerstein, G.L., Zarkowska, J., Tarnecki, R., (1983) Exp. Brain Res, 51, pp. 97-107
Aiple, F., Krueger, J., (1988) Exp. Brain Res, 11, pp. 141-149
Ts'o, D.Y., Gilbert, C.D., Weisel, T.N., (1986) J. Neurosci, 6, pp. 1160-1170
Ts'o, D.Y., Gilbert, C.D., (1988) J. Neurosci, 8, pp. 1712-1727
Gochin, P.M., Miller, E.K., Gross, C.G., Gerstein, G.L., (1991) Exp. Brain Res, 84, pp. 505-516
Hata, Y., Tsumoto, T., Sato, H., Hagihara, K., Tamura, H., (1998) Nature, 335, pp. 815-817
Alonso, J.M., Martinez, L.M., (1998) Nat. Neurosci, 1, pp. 395-403
Molotchnikoff, S., Shumikhina, S., (1998) Vis. Res, 36, pp. 2037-2046
Perkel, D.H., Gerstein, G.L., Moore, G.P., (1967) Biophys. J, 1, pp. 419-440
Gerstein, G.L., Perke, D.H., (1969) Science, 164, pp. 828-830
Moore, G.P., Segundo, J.P., Perkel, D.H., Levitan, H., (1970) Biophys. J, 10, pp. 876-900
Kirkwood, P.A., (1979) J. Neurosci. Methods, 1, pp. 7152-7161
Aertsen, A.M., Gerstein, G.L., Habib, M.K., Palm, G., (1989) J. Neurophysiol, 61, pp. 900-917
Surmier, D.J., Weinberg, R.J., (1985) Brain Res, 331, pp. 180-184
Hubel, D.H., Weisel, T.N., (1962) J. Physiol. (London), 160, pp. 106-154
Mountcastle, V.B., (1957) J. Neurophysiol, 20, pp. 408-434
De Angelis, G.C., Ghose, G.M., Ohzawa, I., Freeman, R.D., (1999) J. Neuroscience, 19, pp. 4046-4064
Zohary, E., Shadlen, M.N., Newsome, W.T., (1994) Nature, 370, pp. 140-143
Shadlen, M.N., Newsome, W.T., (1998) J. Neuroscience, 18, pp. 3870-3896
Montani, F., Kohn, A., Smith, M., Schultz, S.R., (2006) Neurocomputing, , in press
Montani, F., Kohn, A., Smith, M., Schultz, S.R., (2007) J. Neuroscience, , in press
Kohn, A., Smith, M.A., (2005) J. Neurosci, 25, pp. 3661-3673
Samonds, J.M., Bonds, A.B., (2005) J. Neurophysiol, 93, pp. 223-236
Schneidman, E., Bialek, W., Berry, M.J., (2003) J. Neurosci, 23 (37), pp. 11539-11553
Panzeri, S., Treves, A., (1996) Network, 1, pp. 87-107
Ma, S.K., (1981) J. Statistical Physics, 26, pp. 221-240
Nemenman, I., Bialek, W., Steveninck, R., (2004) Phys. Rev. E, 69, pp. 056111-056116
Carlton, A.G., (1969) PyschologicalBulletin, 71, pp. 108-109
Miller, G.A., (1955) Information Theory in Psychology; Problems and Methods II-B, 95-100
I. Nemenman, F. Shafee, and W. Bialek, Entropy and inference, revisited, In Advance Neural Information Processing Systems 14, edited by T. .G. Dietterich, S. Becker, and Z. Ghahramani, MIT Presions, Cambridge, MA, 2002; Lamberti, R.W., Martin, M.T., Piastino, A., Rosso, O.A., (2004) Physica A, 334, pp. 119-131
Rosso, O.A., Martin, M.T., Figliola, A., Keller, K., Piastino, A., (2006) J. Neuroscience Meth, 153, pp. 163-182
Strong, S.P., Koberle, R., de Ruyter van Steveninck, R.R., Bialek, W., (1998) Physical Review Letters, 80, pp. 197-200
Panzeri, S., Schultz, S.R., Treves, A., Rolls, E.T., (1999) Proc. Royal Soc. London B: Biological Sciences, 266, pp. 1001-1012A4 - Nat. Council of Scientific and Tech. Invest. (CONICET), Argentina; Nat. Agency of Sci. and Technol. Promotion (ANPCyT), Argentina; Latin American Center of Physics (CLAF); Air Force Office of Scientific Research (AFOSR), USA; Nat. Sci. Found. Office of Int. Science and Eng. (OISE), USA

Citas:

---------- APA ----------

Montani, F., Rosso, O.A. & Schultz, S.R. (2007) . Discrimination measure of correlations in a population of neurons by using the Jensen-Shannon divergence. 15th Conference on Nonequilibrium Statistical Mechanics and Nonlinear Physics, 913, 184-189.
http://dx.doi.org/10.1063/1.2746745

---------- CHICAGO ----------

Montani, F., Rosso, O.A., Schultz, S.R. "Discrimination measure of correlations in a population of neurons by using the Jensen-Shannon divergence" . 15th Conference on Nonequilibrium Statistical Mechanics and Nonlinear Physics 913 (2007) : 184-189.
http://dx.doi.org/10.1063/1.2746745

---------- MLA ----------

Montani, F., Rosso, O.A., Schultz, S.R. "Discrimination measure of correlations in a population of neurons by using the Jensen-Shannon divergence" . 15th Conference on Nonequilibrium Statistical Mechanics and Nonlinear Physics, vol. 913, 2007, pp. 184-189.
http://dx.doi.org/10.1063/1.2746745

---------- VANCOUVER ----------

Montani, F., Rosso, O.A., Schultz, S.R. Discrimination measure of correlations in a population of neurons by using the Jensen-Shannon divergence. AIP Conf. Proc. 2007;913:184-189.
http://dx.doi.org/10.1063/1.2746745