We present a novel computational model of the active buffer of working memory (WM). The model uses synchronous oscillations in order to bind an item and its corresponding context into one representation, while asynchronous oscillations are used to separate the representations. Due to the bindings, the model can ascribe proper meanings to items, as demonstrated by the replication of the effective rejection of distractors. The model predicts the inherent limitation of WM capacity in range of 1 to around six items that arises from the trade-off between the number and stability of separate oscillations. This trade-off depends on the strength of lateral inhibition exerted. The systematic variation in inhibition led to the exact replication of ca...
<div><p>The study of working memory capacity is of outmost importance in cognitive psychology as wor...
Working memory (WM) is a primary cognitive function that corresponds to the ability to update, stabl...
Background. Working memory (WM) seems to be central to most forms of high-level cognition. This fact...
Neural oscillations have been recorded and implicated in many different basic brain and cognitive pr...
Neural oscillations have been recorded and implicated in many different basic brain and cognitive pr...
The question ‘what is working memory capacity?’ can be approached from the individual-differences an...
We suggest a neurophysiological account of the short-term memory capacity limit based on a model of ...
The capacity of working memory (WM), a short-term buffer for information in the brain, is limited. W...
A mathematical model of working-memory capacity limits is proposed on the key assumption of mutual i...
International audienceWorking memory (WM) is a primary cognitive function that corresponds to the ab...
Working memory resources are needed for processing and maintenance of information during cognitive t...
Luck and Vogel (1997) showed that the storage capacity of visual working memory is about four object...
AbstractA mathematical model of working-memory capacity limits is proposed on the key assumption of ...
Although the neural basis of working memory (WM) capacity is often studied by exploiting interindivi...
The article introduces an interference model of working memory for information in a continuous simil...
<div><p>The study of working memory capacity is of outmost importance in cognitive psychology as wor...
Working memory (WM) is a primary cognitive function that corresponds to the ability to update, stabl...
Background. Working memory (WM) seems to be central to most forms of high-level cognition. This fact...
Neural oscillations have been recorded and implicated in many different basic brain and cognitive pr...
Neural oscillations have been recorded and implicated in many different basic brain and cognitive pr...
The question ‘what is working memory capacity?’ can be approached from the individual-differences an...
We suggest a neurophysiological account of the short-term memory capacity limit based on a model of ...
The capacity of working memory (WM), a short-term buffer for information in the brain, is limited. W...
A mathematical model of working-memory capacity limits is proposed on the key assumption of mutual i...
International audienceWorking memory (WM) is a primary cognitive function that corresponds to the ab...
Working memory resources are needed for processing and maintenance of information during cognitive t...
Luck and Vogel (1997) showed that the storage capacity of visual working memory is about four object...
AbstractA mathematical model of working-memory capacity limits is proposed on the key assumption of ...
Although the neural basis of working memory (WM) capacity is often studied by exploiting interindivi...
The article introduces an interference model of working memory for information in a continuous simil...
<div><p>The study of working memory capacity is of outmost importance in cognitive psychology as wor...
Working memory (WM) is a primary cognitive function that corresponds to the ability to update, stabl...
Background. Working memory (WM) seems to be central to most forms of high-level cognition. This fact...