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Transition to chaos in random neuronal networks
Jonathan Kadmon
*
, Haim Sompolinsky
*
Corresponding author for this work
Edmond & Lily Safra Center for Brain Sciences
Racah Institute of Physics
Research output
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peer-review
141
Scopus citations
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Keyphrases
Neuronal Network
100%
Firing Rate
100%
Transition to Chaos
100%
Rate-based
60%
Chaotic Fluctuations
60%
Synaptic Gain
60%
Synaptic
40%
Large-scale Networks
40%
Rate Fluctuations
40%
Chaotic Dynamics
40%
Biological Systems
20%
Power Law
20%
Central Nervous System
20%
Phase Diagram
20%
Neural Circuits
20%
Nonlinearity
20%
Unstable Dynamics
20%
Response Properties
20%
Statistical Mechanics
20%
Spike Dynamics
20%
Input-output
20%
Functional Consequences
20%
Synaptic Connections
20%
Smooth Transition
20%
Scaling Properties
20%
Gaussian Distribution
20%
Near-threshold
20%
Inhibitory Input
20%
Network Model
20%
Neuronal Circuits
20%
Output Rate
20%
Firing Pattern
20%
Neuronal Dynamics
20%
Excitatory Neurons
20%
Transfer Function
20%
Sharp Transition
20%
Single Population
20%
Above-threshold
20%
Stable Fixed Point
20%
Excitatory Input
20%
Fast-spiking
20%
Largest Mean
20%
Cortical Circuits
20%
Fire Dynamics
20%
Intrinsic Dynamics
20%
Dynamic Mean-field Theory
20%
Nonlinear Transfer Function
20%
Neuronal Circuit Model
20%
Temporal Irregularity
20%
Crossover Phenomenon
20%
Neuronal Architecture
20%
Cortical Circuit Dynamics
20%
Firing Threshold
20%
Nonlinear Input
20%
Irregular Fluctuation
20%
Engineering
Chaotic Fluctuation
100%
Gaussians
66%
Fixed Points
66%
Constant Time
66%
Single Neuron
66%
Biological System
33%
Network Model
33%
Subpopulation
33%
Constant Rate
33%
Transfer Function
33%
Stable Fixed Point
33%
Circuit Model
33%
Synaptic Connection
33%
Output Transfer Function
33%
Nonlinearity
33%
Mathematics
Firing Rate
100%
Neuronal Network
100%
Fixed Points
60%
Gaussian Distribution
40%
Constant Time
40%
Transfer Function
40%
Biological System
20%
Variance
20%
Residuals
20%
Scaling Property
20%
Power Law
20%
Network Model
20%
Subpopulation
20%
Statistical Mechanics
20%
Synaptic Connection
20%
Critical Property
20%
Dominated Regime
20%
Firing Pattern
20%
Firing Threshold
20%
Circuit Model
20%
Nonlinearity
20%
Physics
Gaussian Distribution
100%
Time Constant
100%
Transfer Function
100%
Phase Diagrams
50%
Statistical Mechanics
50%
Slow Irregular Variable Stars
50%
Biochemistry, Genetics and Molecular Biology
Dynamics
100%
Firing Rate
55%
Gaussian Distribution
22%
Neuroscience
Firing Rate
100%
Neural Circuit
20%
Central Nervous System
20%