Add to ORKGThe mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkable computational capabilities. In order to examine how these two features coexist, here we show that the patterns of synchronized oscillations displayed by networks of neural mass models, representing cortical columns, can be used as substrates for Boolean-like computations. Our results reveal that the same neural mass network may process different combinations of dynamical inputs as different logical operations or combinations of them. This dynamical feature of the network allows it to process complex inputs in a very sophisticated manner. The results are reproduced experimentally with electronic circuits of coupled Chua oscillators, showing...
Coupled oscillations are hypothesized to organize the processing of information across distributed b...
The aim of this thesis is to deepen into the understanding of the mechanisms responsible for the gen...
Synchronous processes are commonly found in nervous systems. These neuronal synchronicities can be b...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
We report on the spontaneous emergence of computation from adaptive synchronization of networked dyn...
The activity of networking neurons is largely characterized by the alternation of synchronous and as...
Towards practical realization of brain-inspired computing in a scalable physical system, we investig...
[eng] The brain is characterized by performing many diverse processing tasks ranging from elaborate ...
Towards practical realization of brain-inspired computing in a scalable physical system, we investig...
We propose a novel architecture of an oscillatory neural network that consists of phase-locked loop ...
The aim of this thesis is to deepen into the understanding of the mechanisms responsible for the gen...
Coupled oscillations are hypothesized to organize the processing of information across distributed b...
The aim of this thesis is to deepen into the understanding of the mechanisms responsible for the gen...
Synchronous processes are commonly found in nervous systems. These neuronal synchronicities can be b...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
The mesoscopic activity of the brain is strongly dynamical, while at the same time exhibits remarkab...
We report on the spontaneous emergence of computation from adaptive synchronization of networked dyn...
The activity of networking neurons is largely characterized by the alternation of synchronous and as...
Towards practical realization of brain-inspired computing in a scalable physical system, we investig...
[eng] The brain is characterized by performing many diverse processing tasks ranging from elaborate ...
Towards practical realization of brain-inspired computing in a scalable physical system, we investig...
We propose a novel architecture of an oscillatory neural network that consists of phase-locked loop ...
The aim of this thesis is to deepen into the understanding of the mechanisms responsible for the gen...
Coupled oscillations are hypothesized to organize the processing of information across distributed b...
The aim of this thesis is to deepen into the understanding of the mechanisms responsible for the gen...
Synchronous processes are commonly found in nervous systems. These neuronal synchronicities can be b...