1,721,556 research outputs found
dguarino/Guarino-Filipchuk-Destexhe: v1.0.1
for Zenodo
Full Changelog: https://github.com/dguarino/Guarino-Filipchuk-Destexhe/commits/v1.0.
Destexhe Alain, Amérique centrale. Enjeux politiques
Lempérière-Roussin Annick. Destexhe Alain, Amérique centrale. Enjeux politiques. In: Vingtième Siècle, revue d'histoire, n°25, janvier-mars 1990. Dossier : le Brésil au pluriel. p. 128
Destexhe Alain, Amérique centrale. Enjeux politiques
Lempérière-Roussin Annick. Destexhe Alain, Amérique centrale. Enjeux politiques. In: Vingtième Siècle, revue d'histoire, n°25, janvier-mars 1990. Dossier : le Brésil au pluriel. p. 128
Le gisement à raclettes de Moha (vallée de la Méhaigne) et Observations générales sur la taille abrupte en Belgique
Destexhe-Jamotte Joseph. Le gisement à raclettes de Moha (vallée de la Méhaigne) et Observations générales sur la taille abrupte en Belgique. In: Bulletin de la Société préhistorique de France, tome 50, n°4, 1953. pp. 249-258
Synaptic noise parameters for each cell type from Destexhe et al. (2001).
<p>Synaptic noise parameters for each cell type from Destexhe et al. (2001).</p
Communication sur les meules omaliennes de la Hesbaye Liégeoise
Destexhe-Jamotte Joseph. Communication sur les meules omaliennes de la Hesbaye Liégeoise. In: Bulletin de la Société préhistorique de France, tome 48, n°9-10, 1951. pp. 474-478
Note sur un biface moustérien trouvé à Wommersom (Brabant)
Destexhe-Jamotte Joseph. Note sur un biface moustérien trouvé à Wommersom (Brabant). In: Bulletin de la Société préhistorique de France, tome 47, n°11-12, 1950. pp. 536-538
Program code for mean-field models of gamma-frequency oscillations in networks of excitatory and inhibitory neurons
<p>Program code to simulate the models of the article:</p>
<p>Tahvili F and Destexhe A. A mean-field model of gamma-frequency oscillations in networks of excitatory and inhibitory neurons. Journal of Computational Neuroscience, i2024. DOI: <a href="https://doi.org/10.1007/s10827-024-00867-1" target="_blank" rel="noopener">https://doi.org/10.1007/s10827-024-00867-1</a></p>
Python code to simulate mouse, monkey and human brains
<p>This archive contains the python codes to run the TVB-AdEx model of mouse, monkey and human brains. The models run in The Virtual Brain simulator, where AdEx mean-fields were implemented. This model reproduces two brain states, asynchronous activity similar to wakefulness, and slow-wave activiy similar to sleep and anesthesia.</p><p>The human model is described in the following papers:</p><p>Goldman, J.S., Kusch, L., Yalcinkaya, B.H., Depannemaecker, D., Nghiem, T-A., Jirsa, V. and Destexhe, A. Brain-scale emergence of slow-wave synchrony and highly responsive asynchronous states based on biologically realistic population models simulated in The Virtual Brain. bioRxiv (2020): https://www.biorxiv.org/content/10.1101/2020.12.28.424574v1</p><p>Goldman, J.S., Kusch, L., Aquilue, D., Yalcinkaya, B.H., Depannemaecker, D., Ancourt, K., Nghiem, T-A., Jirsa, V. and<br>Destexhe, A. A comprehensive neural simulation of slow-wave sleep and highly responsive wakefulness dynamics. Frontiers in Computational Neuroscience 16: 1058957, 2022. DOI: https://doi.org/10.3389/fncom.2022.1058957</p><p>The three species (human, monkey, mouse) are described in:</p><p>Goldman, J., Sacha, M., Kusch, L. and Destexhe, A. Asynchronous and slow-wave oscillatory states in connectome-based models of mouse, monkey and human cerebral cortex. Biorxiv (2023): https://www.biorxiv.org/content/10.1101/2023.08.03.551869v1</p><p>See these papers for details.</p><p>The mouse and macaque brain models were built in a very similar way.</p><p>This work was financed by the Human Brain Project, under the direction of Alain Destexhe.</p>
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