doi: 10.7910/dvn/hepecm
The data are related to the following article: Antonietti Alberto, Martina Dario, Casellato Claudia, D'Angelo Egidio and Pedrocchi Alessandra. <b>Control of a humanoid NAO robot by an adaptive bioinspired cerebellar module in 3D motion tasks</b> <i>Computational Intelligence and Neuroscience</i> Article ID 4862157 <br> <br> <b>Usage:</b> The simulations were performed with a Notebook PC with Windows 10 64bit and MATLAB 2017b 64-bit. In this archive, you can find the dataset of the obtained results and all the files that you need to run the simulations and to reproduce figures and tables of the article. <br> If you want more information about the EDLUT simulator, you can see https://code.google.com/archive/p/edlut/ <br> All the files need to be in the directory where the simulation is launched. <br> Open with MATLAB the file Main_reproduce_results.m and run it. It will check if all the files are present and it will generate the different figures and results. <br> <br> <i>These model files were supplied by Alberto Antonietti and Dario Martina. If you have any question/comments/feedback, please contact us.</i>
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citations | 0 | |
popularity | Average | |
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doi: 10.5061/dryad.t402g
The primate visual system consists of a ventral stream, specialized for object recognition, and a dorsal visual stream, which is crucial for spatial vision and actions. However, little is known about the interactions and information flow between these two streams. We investigated these interactions within the network processing three-dimensional (3D) object information, comprising both the dorsal and ventral stream. Reversible inactivation of the macaque caudal intraparietal area (CIP) during functional magnetic resonance imaging (fMRI) reduced fMRI activations in posterior parietal cortex in the dorsal stream and, surprisingly, also in the inferotemporal cortex (ITC) in the ventral visual stream. Moreover, CIP inactivation caused a perceptual deficit in a depth-structure categorization task. CIP-microstimulation during fMRI further suggests that CIP projects via posterior parietal areas to the ITC in the ventral stream. To our knowledge, these results provide the first causal evidence for the flow of visual 3D information from the dorsal stream to the ventral stream, and identify CIP as a key area for depth-structure processing. Thus, combining reversible inactivation and electrical microstimulation during fMRI provides a detailed view of the functional interactions between the two visual processing streams. openData_newxls files contain percent signal change per run.img/hdr files show tvalues for contrasts see readme.txt for more information
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citations | 0 | |
popularity | Average | |
influence | Average | |
impulse | Average |
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doi: 10.7910/dvn/hepecm
The data are related to the following article: Antonietti Alberto, Martina Dario, Casellato Claudia, D'Angelo Egidio and Pedrocchi Alessandra. <b>Control of a humanoid NAO robot by an adaptive bioinspired cerebellar module in 3D motion tasks</b> <i>Computational Intelligence and Neuroscience</i> Article ID 4862157 <br> <br> <b>Usage:</b> The simulations were performed with a Notebook PC with Windows 10 64bit and MATLAB 2017b 64-bit. In this archive, you can find the dataset of the obtained results and all the files that you need to run the simulations and to reproduce figures and tables of the article. <br> If you want more information about the EDLUT simulator, you can see https://code.google.com/archive/p/edlut/ <br> All the files need to be in the directory where the simulation is launched. <br> Open with MATLAB the file Main_reproduce_results.m and run it. It will check if all the files are present and it will generate the different figures and results. <br> <br> <i>These model files were supplied by Alberto Antonietti and Dario Martina. If you have any question/comments/feedback, please contact us.</i>
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citations | 0 | |
popularity | Average | |
influence | Average | |
impulse | Average |
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doi: 10.5061/dryad.t402g
The primate visual system consists of a ventral stream, specialized for object recognition, and a dorsal visual stream, which is crucial for spatial vision and actions. However, little is known about the interactions and information flow between these two streams. We investigated these interactions within the network processing three-dimensional (3D) object information, comprising both the dorsal and ventral stream. Reversible inactivation of the macaque caudal intraparietal area (CIP) during functional magnetic resonance imaging (fMRI) reduced fMRI activations in posterior parietal cortex in the dorsal stream and, surprisingly, also in the inferotemporal cortex (ITC) in the ventral visual stream. Moreover, CIP inactivation caused a perceptual deficit in a depth-structure categorization task. CIP-microstimulation during fMRI further suggests that CIP projects via posterior parietal areas to the ITC in the ventral stream. To our knowledge, these results provide the first causal evidence for the flow of visual 3D information from the dorsal stream to the ventral stream, and identify CIP as a key area for depth-structure processing. Thus, combining reversible inactivation and electrical microstimulation during fMRI provides a detailed view of the functional interactions between the two visual processing streams. openData_newxls files contain percent signal change per run.img/hdr files show tvalues for contrasts see readme.txt for more information
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citations | 0 | |
popularity | Average | |
influence | Average | |
impulse | Average |
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