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294 Bibliographie McCulloch, W. et Pitts, W. (1943). A logical calculus of the ideas immanent in nervous activity. Bulletin of Mathematical Biology, 5(4):115–133. 2.2.1 McGinley, M. et Oertel, D. (2006). Rate thresholds determine the precision of temporal integration in principal cells of the ventral cochlear nucleus. Hearing research, 216:52–63. 6.3.1 McInnes, L., Allan, B., Armstrong, R., Benson, S., Bernholdt, D., Dahlgren, T., Diachin, L., Krishnan, M., Kohl, J. et Larson, J. (2006). Parallel PDE-based simulations using the common component architecture. Numerical Solution of Partial Differential Equations on Parallel Computers, pages 327–381. 7.2.3 Meeren, H., Pijn, J., Van Luijtelaar, E., Coenen, A. et da Silva, F. (2002). Cortical focus drives widespread corticothalamic networks during spontaneous absence seizures in rats. The Journal of Neuroscience, 22(4):1480–1495. 4.5.2 Mehring, C., Hehl, U., Kubo, M., Diesmann, M. et Aertsen, A. (2003). Activity dynamics and propagation of synchronous spiking in locally connected random networks. Biological Cybernetics, 88(5):395–408. 4.4.1, 4.4.3 Meister, M. et Berry, M. (1999). The neural code of the retina. Neuron, 22:435–450. 4.3.2, 8.1 Meister, M., Lagnado, L. et Baylor, D. (1995). Concerted signaling by retinal ganglion cells. Science, 270(5239):1207. 1.7.3, 4.3.2, 4.4, 4.4.4 Middlebrooks, J., Clock, A., Xu, L. et Green, D. (1994). A panoramic code for sound location by cortical neurons. Science, 264(5160):842–844. 4.5.3 Mirollo, R. et Strogatz, S. (1990). Synchronization of pulse-coupled biological oscillators. SIAM Journal on Applied Mathematics, pages 1645–1662. 4.4.1 Miura, K., Okada, M. et Amari, S. (2006). Estimating spiking irregularities under changing environments. Neural Computation, 18(10):2359–2386. 3.3.1 Mokeichev, A., Okun, M., Barak, O., Katz, Y., Ben-Shahar, O. et Lampl, I. (2007). Stochastic emergence of repeating cortical motifs in spontaneous membrane potential fluctuations in vivo. Neuron, 53(3):413–425. 4.5.3 Monier, C., Fournier, J. et Fregnac, Y. (2008). In vitro and in vivo measures of evoked excitatory and inhibitory conductance dynamics in sensory cortices. Journal of Neuroscience Methods, 169(2):323–365. 1.7.3 Moreno, R., de La Rocha, J., Renart, A. et Parga, N. (2002). Response of spiking neurons to correlated inputs. Physical Review Letters, 89(28):288101. 4.4.2, 4.4.3, 8.1 Moreno-Bote, R. et Parga, N. (2004). Role of synaptic filtering on the firing response of simple model neurons. Physical Review Letters, 92(2):28102. 4.4.2, 4.4.3 Moreno-Bote, R. et Parga, N. (2006). Auto-and crosscorrelograms for the spike response of leaky integrate-and-fire neurons with slow synapses. Physical Review Letters, 96(2):28101. 4.4.1, 4.4.3
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THÈSE DE DOCTORAT DE L’UNIVERSIT
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Computational role of correlations
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viii différent, indispensable. Je
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x 3.4 Fiabilité de la décharge ne
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xii
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xiv 3.8 Fiabilité neuronale in vit
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xvi 9.5 Quality and stability of el
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2 entrée sens (perception) périph
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4 3. L’étude de la sensibilité
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Contexte scientifique 7
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10 Sommaire 1.1 Introduction . . .
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12 Anatomie et physiologie du syst
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46 Modélisation impulsionnelle de
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104 Oscillations, corrélations et
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184 Playdoh : une librairie de calc
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202 Détection de coïncidences dan
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Page 266 and 267: 250 Discussion
Page 268 and 269: 252 Discussion de haute conductance
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Page 282 and 283: 266 Réponse à London et al. spike
Page 284 and 285: 268 Publications 2. Rossant, C. & B
Page 286 and 287: 270 Bibliographie Allen, P., Fish,
Page 288 and 289: 272 Bibliographie Bar-Gad, I., Rito
Page 290 and 291: 274 Bibliographie Brette, R. (2003)
Page 292 and 293: 276 Bibliographie Buzsáki, G. (200
Page 294 and 295: 278 Bibliographie Dan, Y. et Poo, M
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Page 320 and 321: 304 Bibliographie Smith, P. (1995).
Page 322 and 323: 306 Bibliographie Takeda, K. et Fun
Page 324 and 325: 308 Bibliographie Uhlhaas, P., Pipa
Page 326 and 327: 310 Bibliographie Weliky, M. et Kat
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