A framework for modeling the growth and development of neurons and networks.
about
NeuroML: a language for describing data driven models of neurons and networks with a high degree of biological detailHow neurons migrate: a dynamic in-silico model of neuronal migration in the developing cortexQuantitative investigations of axonal and dendritic arbors: development, structure, function, and pathologyNeuronal morphology goes digital: a research hub for cellular and system neuroscienceDevelopmental self-construction and -configuration of functional neocortical neuronal networksGrowth dynamics explain the development of spatiotemporal burst activity of young cultured neuronal networks in detailSimulating cortical development as a self constructing process: a novel multi-scale approach combining molecular and physical aspectsReconstructing the brain: from image stacks to neuron synthesisDevelopmental origin of patchy axonal connectivity in the neocortex: a computational modelDistributed organization of a brain microcircuit analyzed by three-dimensional modeling: the olfactory bulbEnabling functional neural circuit simulations with distributed computing of neuromodulated plasticity.Cell guidance on nanogratings: a computational model of the interplay between PC12 growth cones and nanostructures.Decoding the dopamine signal in macaque prefrontal cortex: a simulation study using the Cx3Dp simulatorA developmental approach to predicting neuronal connectivity from small biological datasets: a gradient-based neuron growth model.Developmental time windows for axon growth influence neuronal network topology.A proto-architecture for innate directionally selective visual maps.An instruction language for self-construction in the context of neural networks.3D-printer visualization of neuron models.Multi-phasic bi-directional chemotactic responses of the growth cone.Using theoretical models to analyse neural development.Modeling of Neuronal Growth In Vitro: Comparison of Simulation Tools NETMORPH and CX3D.Simulation of developing human neuronal cell networks.RipleyGUI: software for analyzing spatial patterns in 3D cell distributions.An algorithm for finding candidate synaptic sites in computer generated networks of neurons with realistic morphologiesA hybrid computational model to predict chemotactic guidance of growth cones.A Computational Model of Innate Directional Selectivity Refined by Visual Experience.Dendrite and Axon Specific Geometrical Transformation in Neurite DevelopmentGrowing a garden of neurons.Computational study of structural changes in neuronal networks during growth: a model of dissociated neocortical cultures.Modular topology emerges from plasticity in a minimalistic excitable network model.Biomaterials and computation: a strategic alliance to investigate emergent responses of neural cells.Employing NeuGen 2.0 to automatically generate realistic morphologies of hippocampal neurons and neural networks in 3D.Framework for efficient synthesis of spatially embedded morphologies.Structural and functional properties of a probabilistic model of neuronal connectivity in a simple locomotor network.Challenges in Reproducibility, Replicability, and Comparability of Computational Models and Tools for Neuronal and Glial Networks, Cells, and Subcellular Structures.The Effect of Host Morphology on Network Characteristics and Thermodynamical Properties of Ising Model Defined on the Network of Human Pyramidal Neurons
P2860
Q21145335-628C7407-87ED-43B7-895E-BCBFD13E981CQ21202781-55C27BDB-C6B6-4BB4-A64B-69F2CD4ECB02Q27008218-8BFA0BF2-CE6D-426F-845A-5E7D3F769273Q27009074-BA5F812C-5322-4C9A-923E-4972265091ADQ27320081-0E9B6251-4D64-4621-AD6C-FC869927592CQ27323127-AF3D0052-7B98-44B8-B092-0B25A164F0A5Q27324271-F9B9C533-5B71-4316-92F1-B0D47D08B298Q28595905-0A4F7A01-165B-4D16-8E89-C3A6853D8D04Q30564036-C37E35B9-992F-4050-91A1-1737986DE277Q30577542-B7F6CF01-3AAA-42FA-ACB9-657FF6A7FD4FQ33350275-2982C28C-9F38-4360-B317-A3DBD0DDBB7CQ34925352-45157B99-84E2-48AA-9AF1-E6B15954A115Q34950091-7A7550AF-EF18-4BE7-8387-91E2C9998AD1Q35107373-36060A62-3E23-4314-AE75-E2FAD7E19236Q35197180-F3BABA75-42F9-4182-83C2-685411E03E50Q35211490-10B90C82-7B9D-4735-A043-C36B2B6D7DDCQ35601009-2150CE08-EACD-4FB1-8782-0DF2B68A4420Q35795857-094D329B-D851-4F10-9EA3-8820941FFDA5Q37390312-5E3EB720-27BA-4FD6-89AE-CAA126AAA524Q37876690-B6E086C0-2A39-421E-B8B4-48E2C15F14A8Q38376240-5F359237-CD8D-4F0B-8A74-6567E6FCE1DBQ38748983-72197B03-FF1E-4780-AD54-85094F1A939DQ39695354-1517CFFB-3F8B-4408-B3B1-B786A7077C91Q41149500-93484B6F-00E5-40A7-BB30-2E651B4F6F62Q41827440-7A5EE556-E747-4EAA-B50E-657EC3816945Q42009127-2C3AF580-F0E7-4663-900B-70B206AD26E7Q42041744-F594AFB7-F4F6-4464-8A0F-BDDAC28EBFEEQ42145184-A5DE543D-FD26-49A6-8DB8-92055D850FF0Q45980746-CA25AA4E-B5C0-4BB1-BF59-215BB5FC0B0FQ46374620-05CD88E0-3AEB-4764-9C22-522604A59D85Q48231399-F390E3CF-0C9B-42B0-BE8D-9136D87548F2Q48314604-85BCAEDE-B705-44C4-8157-BDA24C4C80A3Q48514022-C2FA63CE-A58F-4254-9093-8D76F639552BQ52625886-F2E81B3B-46C6-4D07-9B19-28458FC9BB00Q55003702-1345B5FC-76E7-4718-B9AB-5DF70F785A74Q58619496-22975C6C-4CFE-4D3D-8250-878E0BFB437C
P2860
A framework for modeling the growth and development of neurons and networks.
description
2009 nî lūn-bûn
@nan
2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
name
A framework for modeling the growth and development of neurons and networks.
@ast
A framework for modeling the growth and development of neurons and networks.
@en
type
label
A framework for modeling the growth and development of neurons and networks.
@ast
A framework for modeling the growth and development of neurons and networks.
@en
prefLabel
A framework for modeling the growth and development of neurons and networks.
@ast
A framework for modeling the growth and development of neurons and networks.
@en
P2860
P1476
A framework for modeling the growth and development of neurons and networks
@en
P2093
Rodney Douglas
P2860
P356
10.3389/NEURO.10.025.2009
P577
2009-11-20T00:00:00Z