Av-Ron E., Vibert J-F. A model for temporal and intensity coding in insect olfaction by a network of inhibitory neurons. BioSystems, 39: 241-250 (1996)
Geoffrois, E., Edeline, J.-M., Vibert, J.-F., 1994, Learning by Delay Modifications. in: Computation in Neurons and Neural Systems. F. H. Eeckman (eds) (Kluwer Academic Publishers, Boston) pp 133-138
Pakdaman, K., Vibert, J.-F., Boussard, E., Azmy, N., 1996, Single neuron with recurrent excitation: Effect of the transmission delay. Neural Networks 9: 797-818
Pakdaman K., Alvarez F., Diez-Martinez O., Vibert J-F. Single neuron with recurrent connection: response to slow periodic modulation. BioSystems, 40: 133-140 (1997)
Pakdaman K, F. Alvarez, Segundo J.P., Diez-Martìnez O., Vibert J-F. Adaptation prevents discharge saturation in models of single neurons with recurrent excitation. Int. J. of Modelling and Simulation, in press (1996)
Pakdaman K., Pham J., Boussard E, Vibert J-F. How transmission delays and noise modify the simple and large neural networks dynamics. In Bower J. (Ed) Computational Neurosciences: Trends in Research, 1997. Plenum, New-York. 435-441 (1997)
Pakdaman K., Grotta-Ragazzo C., Malta C.P., Arino O., Vibert J-F. Effect of Delay on the Boundary of the Basin of Attraction in a System of Two Neurons. Neural Networks. In press (1998)
Pham J., Pakdaman K., Vibert J-F. Simulation of spontaneous activity generation in an excitatory network involved in the control of the respiratory rhythm. In Bower J. (Ed) Computational Neurosciences: Trends in Research, 1997. Plenum, New-York. 455-461 (1997) Pham J., Pakdaman K., Champagnat J., Vibert J-F. Spontaneous Activity in Sparsely Connected Excitatory Neural Networks: Effect of Connectivity. Neural Networks. In press (1998)
Segundo, J.P., Stiber, M., Altshuler, E., Vibert, J.-F. Transients in inhibitory driving of neurons and their postsynaptic consequences. Neuroscience 62, 459-480 (1994)
Segundo, J.P., Stiber, M., Vibert, J.-F., Hanneton, S. Periodically modulated inhibition and its post-synaptic consequences. II. Influence of pre-synaptic slope, depth, range, noise and of post-synaptic natural discharges. Neuroscience 68, 693-719 (1995)
Segundo, J.P., Vibert, J.F., Stiber, M., Hanneton, S. Periodically modulated inhibition and its post-synaptic consequences. I. General features. Influence of modulation frequency. Neuroscience 68, 657-692 (1995)
Segundo J.P., Vibert J-F, Stiber M. Periodically modulated inhibition of pacemaker neurons. III. the heterogeneity of the postsynaptic spike train, and how control parameters affect it. Neuroscience. In press (1998).
Vibert, J.-F., Azmy, N. Simulation de la genèse d'un rythme biologique par des réseaux interconnectés. in: Neural networks and their applications. J. Hérault (eds) (EC2, Paris) pp 317-330 (1989)
Vibert, J.-F., Azmy, N. Neuro-bio-clusters: A tool for interacting biological neural networks simulation. in: Artifial Neural Networks. T. Kohonen, K. Makisara, O. Simula, J. Kangas (eds) (Elsevier S.P., NorthHolland Pub, Amsterdam) pp 551-556 (1991)
Vibert, J.-F., Pakdaman, K., Azmy, N. Inter-neural delay modification synchronizes biologically plausible neural networks. Neural Networks 7, 589-607 (1994)
Vibert, J.-F., Pakdaman, K., Cloppet, F., Azmy, N. NBC: a workstation for biological neural network simulation. in: Neural Network Simulation Environments. J. Skrzypek (eds) (Kluwer Academic Publishers, Boston) pp 113-133 (1994)
Vibert, J.-F., Pakdaman, K., Boussard, E., Av-Ron, E. Computational neuroscience and neurology. Nature-Medecine 1, 1247-1248 (1995)
Vibert J-F., Pakdaman K., Boussard E., Av-Ron E. XNBC: A simulation tool. Application to the study of neural coding using hybrid networks. BioSystems, 40: 211-218 (1997)
Vibert, J.-F., Pham, J., Pakdaman, K., Azmy, N., 1995b, XNBC: A simulation tool for neurobiologists. in: The neurobiology of Computation. J. Bower (ed.) (Kluwer Academic Publishers, Boston) pp 346-352.
Vibert J-F., Pakdaman K., Boussard E., Av-Ron E. XNBC: A simulation tool. Application to the study of neural coding using hybrid networks. BioSystems, 40: 211-218 (1997)
Pham J., Pakdaman K., Champagnat J., Vibert J-F. Activity in sparsely connected excitatory neural networks: effect of connectivity. Neural Networks. 11: 415-434 (1998)
Segundo J.P., Vibert J-F, Stiber M. Periodically modulated inhibition of pacemaker neurons. III. the heterogeneity of the postsynaptic spike train, and how control parameters affect it. Neuroscience. 87: 15-47 (1998).
Vibert J-F,, Alvarez F., Pham J. Effects of transmission delays and noise in recurrent excitatory networks. BioSystems, in press (1998).
Pham J., Pakdaman K., Vibert J-F. A discrete map for the dynamics of recurrent excitatory neural networks. BioSystems, in press (1998).
Vibert J-F., Boussard E, Pakdaman K, Av-Ron E. Computational Neuroscience: tools for studying the nervous system. In: Fogelman-Soulié F., Gallinari P. (Eds.) ICANN'95, Proceedings of the International Conference on Artificial Neural Networks, Session 5, Medecine, pp. 63-71 (1995)
Vibert J-F., Pakdaman K, Boussard E. Effects of transmission delays and noise in recurrent excitatory neural networks. Biological Complexity. E. Mizraji, L. Acerenza, F. Alvarez, A. Pomi Eds. DI.R.A.C, Facultad de Ciencias, UdelaR, Montevideo. 97-110 (1997).
Pakdaman K., Pham J., Boussard E, Vibert J-F. How transmission delays and noise modify the simple and large neural networks dynamics. In Bower J. (Ed) Computational Neurosciences: Trends in Research, 1997. Plenum, New-York. 435-441 (1997)
Pham J., Pakdaman K., Vibert J-F. Simulation of spontaneous activity generation in an excitatory network involved in the control of the respiratory rhythm. In Bower J. (Ed) Computational Neurosciences: Trends in Research, 1997. Plenum, New-York. 455-461 (1997)
Vibert J-F., Boussard E, Pakdaman K, Av-Ron E. Computational Neuroscience: tools for studying the nervous system. In: Fogelman-Soulié F., Gallinari P. (Eds.) Industrial Applications of Neural Networks. World Scientific Publishing (Singapor) 439-449 (1998)