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Generic modeling of chemotactic based self-wiring of neural networks
Ronen Segev
, Eshel Ben-Jacob
Research output
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Contribution to journal
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Article
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peer-review
44
Scopus citations
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Keyphrases
Neural Network
100%
Soma
100%
Generic Model
100%
Wiring
100%
Walker
60%
Growth Cone
60%
Neurite
40%
System Development
20%
Network Formation
20%
In Vitro Experiment
20%
Nervous System
20%
Poly-L-lysine
20%
Chemical Communication
20%
Synaptic Connections
20%
Amoeba
20%
Computational Efficiency
20%
Characterization Techniques
20%
Chemotaxis
20%
Numerical Experiments
20%
Issue 1
20%
Computational Properties
20%
Chemical Signals
20%
One-at-a-time
20%
Bacterial Colony
20%
Number of Connections
20%
2D Systems
20%
Internal Energy
20%
Generic Features
20%
Active Elements
20%
Simple Network
20%
Network Organization
20%
Two-dimensional (2D) Models
20%
Neuroscience
Soma
100%
Neural Network
100%
Growth Cone
60%
Neurite
40%
In Vitro
20%
Lysine
20%
Nervous System
20%
Chemotaxis
20%