Sfoglia per Autore
An innovative mechanical and control architecture for a biomimetic hexapod for planetary exploration
file da validare2005-01-01 Pavone, M.; Arena, P.; Patane, L.
Towards autonomous adaptive behavior in a bio-inspired CNN-controlled robot
file da validare2006-01-01 Arena, P.; Fortuna, L.; Frasca, M.; Patané, L.; Pavone, M.
Multi-sensory architectures for action-oriented perception
file da validare2007-01-01 Alba, L; Arena, P; De Fiore, S; Listán, J; Patané, L; Salem, A; Scordino, G; Webb, B
The WLC principle for action-oriented perception
file da validare2007-01-01 Arena, P.; Fortuna, L.; Lombardo, D.; Patane, L.; Velarde, M. G.
A new bio-inspired perceptual control architecture applied to solve navigation tasks
file da validare2009-01-01 Arena, Paolo Pietro; DE FIORE, S.; Patane', L.; Vitanza, A.
Embedding the AnaFocus Eye-RIS vision system in roving robots to enhance the action-oriented perception
file da validare2009-01-01 Soto, L. A.; Morillas, S; Listan, J; Jimenez, A; Arena, P; Patanè, L; De Fiore, S
Implementation of a Drosophila-inspired orientation model on the Eye-Ris platform
file da validare2010-01-01 Alba, L.; Arena, P.; DE FIORE, S.; Patanè, L.; Strauss, R.; Vagliasindi, G.
Learning expectation in insects: A recurrent spiking neural model for spatio-temporal representation
file da validare2012-01-01 Arena, Paolo Pietro; Patané, L.; Termini, PIETRO SAVIO
Autonomous Learning of collaboration among robots
file da validare2012-01-01 Arena, Paolo Pietro; Patané, L; Vitanza, Alessandra
A spiking network for body size learning inspired by the fruit fly
file da validare2013-01-01 Arena, P.; DI MAURO, Giuseppe; Krause, T.; Patane, L.; Strauss, R.
Fly-inspired sensory feedback in a reaction-diffusion neural system for locomotion control in a hexapod robot
2015-01-01 Arena, P.; Furia, P.; Patane', L.; Pollino, M.
Modelling the insect Mushroom Bodies: Application to sequence learning
2015-01-01 Arena, P; Calí, M.; Patane', L.; Portera, A.; Strauss, R.
Minimal decentralized control in a Drosophila-inspired walking robot
2017-01-01 Arena, Paolo; Patane, Luca; Turco, Enrico
Insect inspired spatialoral cellular processing for feature-action learning
2017-01-01 Arena, Paolo; Patane, Luca; Spinosa, Angelo Giuseppe
Motor-skill learning in an insect inspired neuro-computational control system
2017-01-01 Arena, E.; Arena, P.; Strauss, R.; Patané, L.
Modelling spatial memory
2018-01-01 Patanè, Luca; Strauss, Roland; Arena, Paolo
Towards neural reusable neuro-inspired systems
2018-01-01 Patanè, Luca; Strauss, Roland; Arena, Paolo
Controlling and learning motor functions
2018-01-01 Patanè, Luca; Strauss, Roland; Arena, Paolo
Insect-Inspired Body Size Learning Model on a Humanoid Robot
2018-01-01 Arena, Paolo; Patané, Luca; Sanalitro, Dario; Vitanza, Alessandra
Non-linear neuro-inspired circuits and systems: Processing and learning issues
2018-01-01 Patanè, Luca; Strauss, Roland; Arena, Paolo
Titolo | Data di pubblicazione | Autore(i) | File |
---|---|---|---|
An innovative mechanical and control architecture for a biomimetic hexapod for planetary exploration | 1-gen-2005 | Pavone, M.; Arena, P.; Patane, L. | file da validare |
Towards autonomous adaptive behavior in a bio-inspired CNN-controlled robot | 1-gen-2006 | Arena, P.; Fortuna, L.; Frasca, M.; Patané, L.; Pavone, M. | file da validare |
Multi-sensory architectures for action-oriented perception | 1-gen-2007 | Alba, L; Arena, P; De Fiore, S; Listán, J; Patané, L; Salem, A; Scordino, G; Webb, B | file da validare |
The WLC principle for action-oriented perception | 1-gen-2007 | Arena, P.; Fortuna, L.; Lombardo, D.; Patane, L.; Velarde, M. G. | file da validare |
A new bio-inspired perceptual control architecture applied to solve navigation tasks | 1-gen-2009 | Arena, Paolo Pietro; DE FIORE, S.; Patane', L.; Vitanza, A. | file da validare |
Embedding the AnaFocus Eye-RIS vision system in roving robots to enhance the action-oriented perception | 1-gen-2009 | Soto, L. A.; Morillas, S; Listan, J; Jimenez, A; Arena, P; Patanè, L; De Fiore, S | file da validare |
Implementation of a Drosophila-inspired orientation model on the Eye-Ris platform | 1-gen-2010 | Alba, L.; Arena, P.; DE FIORE, S.; Patanè, L.; Strauss, R.; Vagliasindi, G. | file da validare |
Learning expectation in insects: A recurrent spiking neural model for spatio-temporal representation | 1-gen-2012 | Arena, Paolo Pietro; Patané, L.; Termini, PIETRO SAVIO | file da validare |
Autonomous Learning of collaboration among robots | 1-gen-2012 | Arena, Paolo Pietro; Patané, L; Vitanza, Alessandra | file da validare |
A spiking network for body size learning inspired by the fruit fly | 1-gen-2013 | Arena, P.; DI MAURO, Giuseppe; Krause, T.; Patane, L.; Strauss, R. | file da validare |
Fly-inspired sensory feedback in a reaction-diffusion neural system for locomotion control in a hexapod robot | 1-gen-2015 | Arena, P.; Furia, P.; Patane', L.; Pollino, M. | |
Modelling the insect Mushroom Bodies: Application to sequence learning | 1-gen-2015 | Arena, P; Calí, M.; Patane', L.; Portera, A.; Strauss, R. | |
Minimal decentralized control in a Drosophila-inspired walking robot | 1-gen-2017 | Arena, Paolo; Patane, Luca; Turco, Enrico | |
Insect inspired spatialoral cellular processing for feature-action learning | 1-gen-2017 | Arena, Paolo; Patane, Luca; Spinosa, Angelo Giuseppe | |
Motor-skill learning in an insect inspired neuro-computational control system | 1-gen-2017 | Arena, E.; Arena, P.; Strauss, R.; Patané, L. | |
Modelling spatial memory | 1-gen-2018 | Patanè, Luca; Strauss, Roland; Arena, Paolo | |
Towards neural reusable neuro-inspired systems | 1-gen-2018 | Patanè, Luca; Strauss, Roland; Arena, Paolo | |
Controlling and learning motor functions | 1-gen-2018 | Patanè, Luca; Strauss, Roland; Arena, Paolo | |
Insect-Inspired Body Size Learning Model on a Humanoid Robot | 1-gen-2018 | Arena, Paolo; Patané, Luca; Sanalitro, Dario; Vitanza, Alessandra | |
Non-linear neuro-inspired circuits and systems: Processing and learning issues | 1-gen-2018 | Patanè, Luca; Strauss, Roland; Arena, Paolo |
Legenda icone
- file ad accesso aperto
- file disponibili sulla rete interna
- file disponibili agli utenti autorizzati
- file disponibili solo agli amministratori
- file sotto embargo
- nessun file disponibile