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Dr. Javier Baladrón Pezoa
Ingeniero Civil en Informática y Magister en Ingeniería Informática de la Universidad de Santiago de Chile. Obtuvo un doctorado en Informática de la Universidad de Nice Sophia Antipolis, Francia el año 2013 como parte del proyecto Europeo FACETS-ITN de Neurociencia Computacional.
El Dr. Baladrón fue parte del laboratorio de Inteligencia Artificial de la Universidad de Chemnitz en Alemania donde participó en múltiples proyectos enfocados en estudiar el rol de los ganglios basales en el aprendizaje por refuerzo.
Neurociencia computacional, ciencias cognitivas, aprendizaje por refuerzo, ganglios basales.
"Sonderfors chungsbereich Hybrid Societies INST 270/321-1" "Deutsche Forschungsge meinschaft", 2019- 2024, Co-investigador .
"Clinical Connecto mics: A network approach to deep brain stimulation. DFG HA2630/1 1-1" "Deutsche Forschungsge meinschaft" 2018-2021. Co-investigador
Multilevel neurocom putational models of basal ganglia dysfunction in Tourette syndrome. "Federal Ministry of Education and Research (BMBF)" 2018-2021. Co-investigador
Sozial agierende, kognitive Systeme zur Feststellun g von Hilfsbedür ftigkeit ESF (Sachsen) 2016-2019. Co-investigador
"German-Japanese Collaboration Computational Neuroscience: The function and role of Basal Ganglia Pathways: From single to multiple loops. DFG HA2630/8 -1" "Deutsche Forschungsge meinschaft" 2013- 2016. Co-investigador
"Javier Baladron & Fred Hamker", 2023, Re-Thinking the Organization of Cortico-Basal Ganglia-Thalamo-Cortical Loops Cognitive Computation, https://doi.org/10.1007/s12559-023-10140-9.
"Maith, O., Baladron J., Einhäuser W., Hamker F.H”, 2023, Exploration behavior after reversals is predicted by STN-GPe synaptic plasticity in a basal ganglia model iScience, 2589-0042 doi: 10.1016/j.isci.2023.106599.
Baladron J., Vitay, J., Fietzek, T., Hamker, F.H, 2023, The contribution of the basal ganglia and cerebellum to motor learning: a neuro-computation al approach "PLOS Comp. Biology", 1553-7358 doi: 10.1371/journal.pcbi.1011243.
"Jil Meier, Dionysio s Perdikis, André Blickens dörfer, Leon Stefanovski, Qin Li", 2022, Virtual deep brain stimulation: Multiscale co-simulation of a spiking basal ganglia model and a whole-brain mean field model with The Virtual Brain Experimental Neurology, 1090-2430 https://doi.org/10.1016/j.expneurol.2022.114111.
"Oliver Maith, Helge Ü. Dinkelbach, Javier Baladron, Julien Vitay and Fred H. Hamker" , 2022, "BOLD monitoring in the neural simulator ANNarchy" Frontiers in Neuroinformatics, 1662-5196 doi: 10.3389/fninf.2022.790966.
"Carolin Scholl, Javier Baladron , Julien Vitay and Fred H. Hamker", 2022, "Enhanced habit formation in Tourette patients explained by shortcut modulation in a hierarchical cortico-basal ganglia model" "Brain Structure and Function", 186 3-2661, doi: 10.1007/s00429-021-02446-x.
"Lorenz Goenner, Oliver Maith, Iliana Koulouri, Javier Baladron and Fred H. Hamker", 2020, "A spiking model of basal ganglia dynamics in stopping behavior supported by Arkypallidal neurons" "European Journal of Neuroscience", 1460-9568. doi: 10.1111/ejn.15082.
"Oliver Maith, Francesc Villagras a Escudero, Helge Ülo Dinkelba ch, Javier Baladron, Andreas Horn, Friederik e Irmen, Andrea A. Kühn and Fred H. Hamker", 2020, "A computational model-based analysis of basal ganglia pathway changes in Parkinson’s disease inferred from resting state fMRI" "European Journal of Neuroscience" 1460-9568, doi: 10.1111/ejn.14868
"Javier Baladron and Fred H. Hamker", 2020, "Habit learning in hierarchical cortex – basal ganglia loops" "European Journal of Neuroscience", 1460-9568. doi: 10.1111/ejn.14730
"Javier Baladron, Atsushi Nambu and Fred H. Hamker", 2019, "The subthalamic nucleus-external globus pallidus loop biases exploratory decisions towards known alternatives: a neuro-computation al study" "European Journal of Neuroscience", 1460-9568, doi: 10.1111/ejn.13666.