Andrea Green

Thème (s)

• Base neuronale de contrôle sensorimoteur;
• Contributions sensorielles à l’estimation du mouvement dans l’espace;
• Apprentissage de tâches motrices et changement de comportement en fonction du contexte sensoriel;
• Modèles computationnels des systèmes neuronaux.

Publications choisies

• Martin CZ, Lapierre P, Haché S, Lucien D and Green AM. Vestibular contributions to online reach execution are processed via mechanisms with knowledge about limb biomechanics.  J Neurophysiol. 125: 1022-1045, 2021.
• Michalski J,  Green AM, and Cisek P. Reaching decisions during ongoing movements. J Neurophysiol. 123:1090-1102, 2020.
• Martin CZ, Brooks JX and Green AM. Role of rostral fastigial neurons in encoding a body-centered representation of translation in three-dimensions. Journal of Neuroscience 38: 3584-3602, 2018.
• Moreau-Debord I, Martin CZ, Landry M and Green AM. Evidence for a reference frame transformation of vestibular signal contributions to voluntary reaching. J. Neurophysiol. 111: 1903-1919, 2014.
• Green AM, Kalaska JF.  Learning to move machines with the mind. Trends in Neuroscience 34: 61-75, 2011.
• Green AM, Angelaki DE.  Multisensory integration: resolving sensory ambiguities to build novel representations, Current Opinion in Neurobiology 20: 353-360, 2010.
• Yakusheva TA, Shaikh AG, Green AM, Blazquez PM, Dickman, JD and Angelaki DE. Purkinje cells in posterior cerebellar vermis encode motion in an inertial reference frame, Neuron, 54: 973-985, 2007.
• Green AM, Meng H, Angelaki DE. A reevaluation of the inverse dynamic model for eye movements, Journal of Neuroscience, 27: 1346-1355, 2007.
• Green AM, Angelaki DE. An integrative neural network for detecting inertial motion and head orientation. J. Neurophysiol. 92: 905-925, 2004.
• Angelaki DE, Shaikh AG, Green AM,  Dickman JD. Neurons compute internal models of the physical laws of motion. Nature 430: 560-564, 2004.