Working memory (WM), including a ‘central executive’, is used to guide behavior by internal goals or intentions. We suggest that WM is best described as a set of three interdependent functions which are implemented in the prefrontal cortex (PFC). These functions are maintenance, control of attention and integration. A model for the maintenance function is presented, and we will argue that this model can be extended to incorporate the other functions as well. Maintenance is the capacity to briefly maintain information in the absence of corresponding input, and even in the face of distracting information. We will argue that maintenance is based on recurrent loops between PFC and posterior parts of the brain, and probably within PFC as well. In these loops information can be held temporarily in an active form. We show that a model based on these structural ideas is capable of maintaining a limited number of neural patterns. Not the size, but the coherence of patterns (i.e., a chunking principle based on synchronous firing of interconnected cell assemblies) determines the maintenance capacity. A mechanism that optimizes coherent pattern segregation, also poses a limit to the number of assemblies (about four) that can concurrently reverberate. Top-down attentional control (in perception,

Coherence and recurrency: maintenance, control and integration in working memory / Gezinus, Wolters; Raffone, Antonino. - In: COGNITIVE PROCESSING. - ISSN 1612-4782. - STAMPA. - 9:1(2008), pp. 1-17. [10.1007/s10339-007-0185-8]

Coherence and recurrency: maintenance, control and integration in working memory

RAFFONE, Antonino
2008

Abstract

Working memory (WM), including a ‘central executive’, is used to guide behavior by internal goals or intentions. We suggest that WM is best described as a set of three interdependent functions which are implemented in the prefrontal cortex (PFC). These functions are maintenance, control of attention and integration. A model for the maintenance function is presented, and we will argue that this model can be extended to incorporate the other functions as well. Maintenance is the capacity to briefly maintain information in the absence of corresponding input, and even in the face of distracting information. We will argue that maintenance is based on recurrent loops between PFC and posterior parts of the brain, and probably within PFC as well. In these loops information can be held temporarily in an active form. We show that a model based on these structural ideas is capable of maintaining a limited number of neural patterns. Not the size, but the coherence of patterns (i.e., a chunking principle based on synchronous firing of interconnected cell assemblies) determines the maintenance capacity. A mechanism that optimizes coherent pattern segregation, also poses a limit to the number of assemblies (about four) that can concurrently reverberate. Top-down attentional control (in perception,
2008
control of attention; integration; maintenance; prefrontal cortex; recurrent networks; synchronization; working memory
01 Pubblicazione su rivista::01a Articolo in rivista
Coherence and recurrency: maintenance, control and integration in working memory / Gezinus, Wolters; Raffone, Antonino. - In: COGNITIVE PROCESSING. - ISSN 1612-4782. - STAMPA. - 9:1(2008), pp. 1-17. [10.1007/s10339-007-0185-8]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/141949
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