Parietal lobe: from action organization to intention understanding L Fogassi, PF Ferrari, B Gesierich, S Rozzi, F Chersi, G Rizzolatti Science 308 (5722), 662-667, 2005 | 2781 | 2005 |
The cognitive architecture of spatial navigation: hippocampal and striatal contributions F Chersi, N Burgess Neuron 88 (1), 64-77, 2015 | 256 | 2015 |
The mixed instrumental controller: using value of information to combine habitual choice and mental simulation G Pezzulo, F Rigoli, F Chersi Frontiers in psychology 4, 92, 2013 | 245 | 2013 |
Sentence processing: linking language to motor chains F Chersi, S Thill, T Ziemke, AM Borghi Frontiers in neurorobotics 4, doi: 10.3389/fnbot.2010, 2010 | 103 | 2010 |
Neuronal chains for actions in the parietal lobe: a computational model F Chersi, PF Ferrari, L Fogassi PloS one 6 (11), e27652, 2011 | 83 | 2011 |
Nouns referring to tools and natural objects differentially modulate the motor system PM Gough, L Riggio, F Chersi, M Sato, L Fogassi, G Buccino Neuropsychologia 50 (1), 19-25, 2012 | 65 | 2012 |
A spiking neuron model of the cortico-basal ganglia circuits for goal-directed and habitual action learning F Chersi, M Mirolli, G Pezzulo, G Baldassarre Neural Networks 41, 212-224, 2013 | 64 | 2013 |
A general model of hippocampal and dorsal striatal learning and decision making JP Geerts, F Chersi, KL Stachenfeld, N Burgess Proceedings of the National Academy of Sciences 117 (49), 31427-31437, 2020 | 62 | 2020 |
Topological Self‐Organization and Prediction Learning Support Both Action and Lexical Chains in the Brain F Chersi, M Ferro, G Pezzulo, V Pirrelli Topics in cognitive science 6 (3), 476-491, 2014 | 56 | 2014 |
Mental imagery in the navigation domain: a computational model of sensory-motor simulation mechanisms F Chersi, F Donnarumma, G Pezzulo Adaptive Behavior 21 (4), 251-262, 2013 | 49* | 2013 |
Using hippocampal-striatal loops for spatial navigation and goal-directed decision-making F Chersi, G Pezzulo Cognitive processing 13, 125-129, 2012 | 48 | 2012 |
Learning Through Imitation: a Biological Approach to Robotics F Chersi Transactions on Autonomous Mental Development 4 (3), 204 - 214, 2012 | 38 | 2012 |
On the development of intention understanding for joint action tasks W Erlhagen, A Mukovskiy, F Chersi, E Bicho 2007 ieee 6th international conference on development and learning, 140-145, 2007 | 38 | 2007 |
A programmer–interpreter neural network architecture for prefrontal cognitive control F Donnarumma, R Prevete, F Chersi, G Pezzulo International journal of neural systems 25 (06), 1550017, 2015 | 32 | 2015 |
NeuronFlow: a neuromorphic processor architecture for Live AI applications O Moreira, A Yousefzadeh, F Chersi, G Cinserin, R Zwartenkot, A Kapoor, ... Design, Automation & Test (DATE2020), 840-845, 2020 | 31 | 2020 |
Sentence processing: Linking language to motor chain.(Special topic, Action and language integration in cognitive systems.) F Chersi, S Thill, T Ziemke, A Borghi Frontiers in neurorobotics 4, 1-9, 2010 | 25 | 2010 |
NeuronFlow: A Hybrid Neuromorphic–Dataflow Processor Architecture for AI Workloads O Moreira, A Yousefzadeh, F Chersi, A Kapoor, RJ Zwartenkot, P Qiao, ... 2020 2nd IEEE International Conference on Artificial Intelligence Circuits …, 2020 | 23 | 2020 |
Neural mechanisms and models underlying joint action F Chersi Experimental Brain Research 211 (3-4), 643-653, 2011 | 20 | 2011 |
A model of intention understanding based on learned chains of motor acts in the parietal lobe F Chersi, A Mukovskiy, L Fogassi, PF Ferrari, W Erlhagen Proceedings of the 15th annual computational neuroscience meeting, Edinburgh, UK, 2006 | 20 | 2006 |
The intentional stance as structure learning: a computational perspective on mindreading H Dindo, F Donnarumma, F Chersi, G Pezzulo Biological cybernetics 109, 453-467, 2015 | 18 | 2015 |