Abstract Cerebral cortex is characterized by a strong neuron-to-neuron heterogeneity, but it is unclear what consequences this may have for cortical computations, while most computational models consider networks of identical units. Here, we study network models of spiking neurons endowed with heterogeneity, that we treat independently for excitatory and inhibitory neurons. We find that heterogeneous networks are generally more responsive, with an optimal responsiveness occurring for levels of heterogeneity found experimentally in different published datasets, for both excitatory and inhibitory neurons. To investigate the underlying mechanisms, we introduce a mean-field model of heterogeneous networks. This mean-field model captures optimal...
High-level brain function, such as memory, classification, or reasoning, can be realized by means of...
Complexity and heterogeneity are intrinsic to neurobiological systems, manifest in every process, at...
Recent results have shown that functional connectivity among cortical neurons is highly varied, with...
Cerebral cortex is characterized by a strong neuron-to-neuron heterogeneity, but it is unclear what ...
A central issue of neuroscience is to understand how neural units integrates internal and external s...
The principal function of neurons in the cortex is to communicate and process information. A charact...
Neural systems display a prominent level of heterogeneity in synaptic, neuron, and network propertie...
Most network models for neural behavior assume a predefined network topology and consist of almost i...
Computational studies addressing the dynamics and computational properties of biologically inspired ...
Networks composed of a large number of interacting neurons form a basis of complex, real-time comput...
Cortical networks show a large heterogeneity of neuronal properties. However, traditional coding mod...
Computational studies addressing the dynamics and computational properties of biologically inspired ...
Neural populations show patterns of synchronous activity, as they share common correlated inputs. Ne...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
The way brain networks maintain high transmission efficiency is believed to be fundamental in unders...
High-level brain function, such as memory, classification, or reasoning, can be realized by means of...
Complexity and heterogeneity are intrinsic to neurobiological systems, manifest in every process, at...
Recent results have shown that functional connectivity among cortical neurons is highly varied, with...
Cerebral cortex is characterized by a strong neuron-to-neuron heterogeneity, but it is unclear what ...
A central issue of neuroscience is to understand how neural units integrates internal and external s...
The principal function of neurons in the cortex is to communicate and process information. A charact...
Neural systems display a prominent level of heterogeneity in synaptic, neuron, and network propertie...
Most network models for neural behavior assume a predefined network topology and consist of almost i...
Computational studies addressing the dynamics and computational properties of biologically inspired ...
Networks composed of a large number of interacting neurons form a basis of complex, real-time comput...
Cortical networks show a large heterogeneity of neuronal properties. However, traditional coding mod...
Computational studies addressing the dynamics and computational properties of biologically inspired ...
Neural populations show patterns of synchronous activity, as they share common correlated inputs. Ne...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
The way brain networks maintain high transmission efficiency is believed to be fundamental in unders...
High-level brain function, such as memory, classification, or reasoning, can be realized by means of...
Complexity and heterogeneity are intrinsic to neurobiological systems, manifest in every process, at...
Recent results have shown that functional connectivity among cortical neurons is highly varied, with...