Reconstruction and Simulation of Neocortical Microcircuitry.
about
Modeling the Cerebellar Microcircuit: New Strategies for a Long-Standing IssueInhibitory Circuits in Cortical Layer 5Chandelier Cells in Functional and Dysfunctional Neural CircuitsThe Diversity of Cortical Inhibitory SynapsesPhysiological maturation and drug responses of human induced pluripotent stem cell-derived cortical neuronal networks in long-term cultureHigh-throughput dual-colour precision imaging for brain-wide connectome with cytoarchitectonic landmarks at the cellular levelNeural Elements for Predictive CodingConnectomic Analysis of Brain Networks: Novel Techniques and Future DirectionsDynamic Control of Neurotransmitter Release by Presynaptic PotentialInhibitory interneurons in visual cortical plasticityA perspective on bridging scales and design of models using low-dimensional manifolds and data-driven model inferenceModeling of Cerebral Oxygen Transport Based on In vivo Microscopic Imaging of Microvascular Network Structure, Blood Flow, and OxygenationToward an Integration of Deep Learning and NeuroscienceReconstructing the brain: from image stacks to neuron synthesisGenetic variants in Alzheimer disease - molecular and brain network approachesInferring cortical function in the mouse visual system through large-scale systems neuroscienceThe life of the cortical column: opening the domain of functional architecture of the cortex (1955-1981)Neural Information Processing in Cognition: We Start to Understand the Orchestra, but Where is the Conductor?Graph Theoretic and Motif Analyses of the Hippocampal Neuron Type Potential Connectome.Morphological Neuron Classification Using Machine LearningBreaking the Excitation-Inhibition Balance Makes the Cortical Network's Space-Time Dynamics Distinguish Simple Visual Scenes.A robot for high yield electrophysiology and morphology of single neurons in vivo.The Development and Analysis of Integrated Neuroscience DataViSimpl: Multi-View Visual Analysis of Brain Simulation Data.Neocortical activity is stimulus- and scale-invariant.Focal Local Field Potential Signature of the Single-Axon Monosynaptic Thalamocortical Connection.Cliques of Neurons Bound into Cavities Provide a Missing Link between Structure and Function.Network neuroscience.REMOD: A Tool for Analyzing and Remodeling the Dendritic Architecture of Neural Cells.Anatomically Detailed and Large-Scale Simulations Studying Synapse Loss and Synchrony Using NeuroBox.BluePyOpt: Leveraging Open Source Software and Cloud Infrastructure to Optimise Model Parameters in Neuroscience.The C. elegans Connectome Consists of Homogenous Circuits with Defined Functional Roles.An algorithm to predict the connectome of neural microcircuitsThe neocortical microcircuit collaboration portal: a resource for rat somatosensory cortexEffect of Ionic Diffusion on Extracellular Potentials in Neural Tissue.Wiring Economy of Pyramidal Cells in the Juvenile Rat Somatosensory Cortex.A Computational Model Based on Multi-Regional Calcium Imaging Represents the Spatio-Temporal Dynamics in a Caenorhabditis elegans Sensory Neuron.Correlation-based model of artificially induced plasticity in motor cortex by a bidirectional brain-computer interfaceBio-physically plausible visualization of highly scattering fluorescent neocortical models for in silico experimentation.Phase diagrams and dynamics of a computationally efficient map-based neuron model.
P2860
Q26741612-834A668E-1C2E-4C9D-B726-AC9F1B56E09DQ26747549-80AD0B46-4E65-46BC-BEB2-1F90828C4826Q26747552-D5C8F19E-72B4-4605-81F9-6448FA7FDB3FQ26747555-59F271AE-A134-416B-9E67-7F024E2772A4Q27314513-2117DF53-54E0-4EAA-B7E4-D7F9A7141D3CQ27336385-9EE5190D-73A4-41C7-B290-2E5B9FE3E8FBQ28067335-FF9CB912-96AA-4374-87CA-CC2C40F970C0Q28073727-48F799DD-563F-4B8A-9AC4-36BC0E5FEE8BQ28075997-3D918B88-C61B-4B39-8613-430674A54784Q28076504-679C6EE7-7071-4364-982E-C29ED5DCA9B9Q28077722-B29A9C2A-AB4E-4E2F-BD88-1488194C7F53Q28079394-9604CFF8-A5E8-42D0-83DD-810A8CEB6EBCQ28595812-2748AC7F-186C-49F2-9255-DA728DB60269Q28595905-784FD072-DF4C-4A3F-B56F-7A21E48A8D0CQ28596011-B05C96AE-08EE-40BE-A7A1-5656F6FF84F9Q28596423-15045597-7680-4ED1-A76F-58A17256A44CQ30379673-129C6B49-9492-407B-B7E3-6E543852923FQ30391517-1438A838-B6F2-44F0-9D63-2C6CC94907A3Q30490423-D0FECE33-34BD-4B8A-B9C0-40C97DF3E2C7Q30826985-C559F88B-D795-4574-A403-0AA16D207C78Q30842533-0DC9FCDF-1D6B-4925-8B14-6F9E927D9523Q30855019-7449610E-254A-477C-B791-2C0277A87A07Q31048355-62F1574E-4B96-4007-A58E-1FB77AA3C735Q31138612-638560E1-F576-4D3B-849C-4599B073D725Q33658024-0D86F475-F323-4134-A90F-F209EDC6A862Q33726715-F8E7B6A3-FA1F-4B9F-B3EE-7D9BBA1F9E4DQ33787233-F76C4069-F500-40EB-8317-3673AE2EF569Q33837327-7CC799FA-F0BC-4DBF-98DD-9B8878EEC1AEQ35896649-C6D0A52B-5D46-4861-A461-EFA7A22E785CQ35931868-F3E515D1-6B0F-4BF4-8D62-0AAEEE2F300AQ36067212-275D8454-B785-40B3-9924-7232CD53F4E1Q36126249-E3BD9F3B-26A5-4B70-8C68-2D0F8496B6EBQ36135746-24CF6720-BE62-4A27-BC1F-F8C5AB732A8AQ36135754-5AFB3775-8304-4E15-9FE0-0A1214A0F351Q36184330-8779A17E-4B46-4FE3-A9A5-416FE62F8A20Q36188556-202B0702-9CCD-43C6-AD70-4A695133A4B4Q36245481-73ED368B-934E-4C90-9F7D-59B4875EC6A5Q36267401-93868811-7382-4DD9-94D4-BE2C4C3C9AE7Q36294888-99910050-808D-4171-9D48-E4B19965C65AQ36328230-464BBDBA-44CD-41B5-BA08-2F5B027EF359
P2860
Reconstruction and Simulation of Neocortical Microcircuitry.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Reconstruction and Simulation of Neocortical Microcircuitry.
@en
type
label
Reconstruction and Simulation of Neocortical Microcircuitry.
@en
prefLabel
Reconstruction and Simulation of Neocortical Microcircuitry.
@en
P2093
P50
P1433
P1476
Reconstruction and Simulation of Neocortical Microcircuitry
@en
P2093
Ahmet Bilgili
Albert Gidon
Alberto Muñoz-Céspedes
Aleksandr Ovcharenko
Anastasia Ailamaki
Anirudh Gupta
Athanassia Chalimourda
Benjamin Roy Morrice
Bruno R C Magalhães
Carlos Aguado Sanchez
P304
P356
10.1016/J.CELL.2015.09.029
P407
P50
P577
2015-10-01T00:00:00Z