During recent decades, our understanding of the brain has advanced dramatically at both the cellular and molecular levels and at the cognitive neurofunctional level; however, a huge gap remains between the microlevel of physiology and the macrolevel of cognition. We propose that computational models based on assemblies of neurons can serve as a blueprint for bridging these two scales. We discuss recently developed computational models of assemblies that have been demonstrated to mediate higher cognitive functions such as the processing of simple sentences, to be realistically realizable by neural activity, and to possess general computational power
Neural networks are successfully used to imitate and model cognitive processes. However, to provide ...
Higher cognition encompasses advanced mental processes that enable complex thinking, decision-making...
ABSTRACT This paper describes some biologically-inspired processes that could be used to build the ...
AbstractProgress in understanding cognition requires a quantitative, theoretical framework, grounded...
Current cognitive theories postulate either localist representations of knowledge or fully overlappi...
One of the more interesting debates of the present day centers on whether human intelligence can be ...
How does the brain process and memorize information? We all know that the neuron (also known as nerv...
Neural Circuits This paper reviews a system capable of performing multiple cognitive functions using...
In the brain, patterns of neural activity represent sensory information and store it in non-random s...
Introduction: The ability to coactivate (or “superpose”) multiple conceptual representations is a fu...
There has been a long tradition of casting models of information processing which entail elementary ...
Human cognition depends on complex and coordinated activity of neural populations, which are enabled...
Cognitive theory has decomposed human mental abilities into cognitive (sub) systems, and cognitive n...
The dream of cognitive neuroscience has always been a seamless integration of cognitive representati...
A widely discussed hypothesis in neuroscience is that transiently active ensembles of neurons, known...
Neural networks are successfully used to imitate and model cognitive processes. However, to provide ...
Higher cognition encompasses advanced mental processes that enable complex thinking, decision-making...
ABSTRACT This paper describes some biologically-inspired processes that could be used to build the ...
AbstractProgress in understanding cognition requires a quantitative, theoretical framework, grounded...
Current cognitive theories postulate either localist representations of knowledge or fully overlappi...
One of the more interesting debates of the present day centers on whether human intelligence can be ...
How does the brain process and memorize information? We all know that the neuron (also known as nerv...
Neural Circuits This paper reviews a system capable of performing multiple cognitive functions using...
In the brain, patterns of neural activity represent sensory information and store it in non-random s...
Introduction: The ability to coactivate (or “superpose”) multiple conceptual representations is a fu...
There has been a long tradition of casting models of information processing which entail elementary ...
Human cognition depends on complex and coordinated activity of neural populations, which are enabled...
Cognitive theory has decomposed human mental abilities into cognitive (sub) systems, and cognitive n...
The dream of cognitive neuroscience has always been a seamless integration of cognitive representati...
A widely discussed hypothesis in neuroscience is that transiently active ensembles of neurons, known...
Neural networks are successfully used to imitate and model cognitive processes. However, to provide ...
Higher cognition encompasses advanced mental processes that enable complex thinking, decision-making...
ABSTRACT This paper describes some biologically-inspired processes that could be used to build the ...