Thèse Sciences Cognitives - Olivier Nerot
Thèse Sciences Cognitives - Olivier Nerot
Thèse Sciences Cognitives - Olivier Nerot
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
Mémorisation par forçage des dynamiques chaotiques dans les modèles connexionnistes récurrents<br />
mnésique rétrograde 22 ), en inscrivant la mémoire comme un principe actif d’autonomie pour le<br />
système :<br />
2.5 Bibliographie<br />
62<br />
... et l’action représente la force d’auto-organisation du cerveau. 23<br />
[[1]] Sergey K. Aityan.. Recurrent refractory neural field IEEE. O-7803-0559-0/92 .p 140-145 (1992)<br />
[[39]] François Chapeau-Blondeau. Nicolas Chambert. Synapse models for neural networks : from ion<br />
channel kinetics to multiplicative coefficient Wij. Neural Computation. 7. p713-734. (1995)<br />
[[40]] Francois Chapeau-Blondeau, Gilbert Chauvet. Stable, Oscillatory, and chaotic regimes in the<br />
dynamics of small neural networks with delay. Neural Networks, Vol. 5. pp 735-743. (1992)<br />
[[41]] François Chapeau-Blondeau, Gilbert Chauvet. Dynamic properties of a biologically motivated<br />
neural network model. International Journal of Neural Systems. Vol. 3. no. 4. pp 371-378. (1992)<br />
[[42]] François Chapeau-Blondeau. Maximisation de l'entropie informationnelle dans la transmission par<br />
une non-linéarité neuronale. C.R. Acad. Sci. PAris. t.319. Série II. p271-276. (1994)<br />
[[49]] M. Cosnard, J. Demongeot, K. Lausberg, K. Lott. Attractors, confiners and fractal dimensions :<br />
applications in neuromodelling. Mathematics applied to biology and medecine. J.Demongeot, V.<br />
Capasso (edts). ISBN 0-920063-63-2. p69-93 (1993)<br />
[[46]] A.M. Collins, M.R. Quillian. Retrieval time from semantic memory. Journal of verbal learning and<br />
verbal behavior. (1969).<br />
[[70]] Ivan Dvorak. Spatiotemporal changes in Determinacy of Brain Electrical Phenomena. Dans<br />
Mathematics applied to biology and medecine. pp 103-113. J.Demongeot, V.Capasso, editors.<br />
(1993)<br />
[[86]] Bart L.M. Happel (happel@rulfsw.leidenuniv.nl) , Jacob M.K. Murre. Evolving complex dynamics<br />
in modular interactive neural networks. Soumis a Neural Networks.<br />
[[101]] Lester Ingber(ingber@alumni.caltech,edu). Statistical Mechanics of neocortical Interactions:<br />
Mutltiple Scales of EEG. Dans Electroencephal. clin. Neurophysiol. (1994).<br />
[[102]] Lester Ingber (ingber@alumni.caltech.edu), P.L. Nunez. Statistical mechanics of neocortical<br />
interactions : high resolution path-integral calculation in short term memory. Physical Review E.<br />
Vol. 51, No.5. (1995)<br />
[[105]] Kunihiko Ishiyama, Susumu Itoh, Toshio Utsunomiya, Kazuyuki Aihara. Analysis of chaotic<br />
neuron models with information Theory. Electronics and communications in Japan. Part 3. Vol. 76,<br />
No. 4, (1993)<br />
[[106]] Izhikevich, G. G. Malinetskii. A possible role of chaos in neurosystems. Sov. Phys.Dokl.37(10),<br />
octobre (1992)<br />
[[106]] Izhikevich, G. G. Malinetskii. A possible role of chaos in neurosystems. Sov. Phys.Dokl.37(10),<br />
octobre (1992)<br />
[[123]] John. E. Lewis. Leon Glass. Nonlinear dynamics and symbolic dynamics of neural networks.Neural<br />
Computation. 4. 621-642. (1992)<br />
[[146]] A. Newell, H.A. Simon. Human problem solving. Englewood Cliffs, NJ. Prentice-Hall. (1972)<br />
[[164]] Steve Renals. Chaos in neural networks. Eurasip Workshop, 90-99. (1990)<br />
22 qui signifie que l’on balaie sa mémoire pour rechercher l’information requise.<br />
23 J.D. Vincent. Biologie des passions. Edition Odile Jacob. p.13<br />
PREMIERE PARTIE : ANALYSE
Change language