Interacting rhythms enhance sensitivity of target detection in a fronto-parietal computational model of visual attention
Files
First author draft
Date
2021
Authors
Aussel, Amélie
Feibelkorn, Ian C.
Kastner, Sabine
Kopell, Nancy J.
Pittman-Polletta, Benjamin R.
Version
OA Version
Citation
A. Aussel, I. Feibelkorn, S. Kastner, N. Kopell, B. Pittman-Polletta. 2021. "Interacting rhythms enhance sensitivity of target detection in a fronto-parietal computational model of visual attention.." bioRxiv, https://doi.org/10.1101/2021.02.18.431872
Abstract
Even during sustained attention, enhanced processing of attended stimuli waxes and wanes rhythmically, with periods of enhanced and relatively diminished visual processing (and subsequent target detection) alternating at 4 or 8 Hz in a sustained visual attention task. These alternating attentional states occur alongside alternating dynamical states, in which lateral intraparietal cortex (LIP), the frontal eye field (FEF), and the mediodorsal pulvinar exhibit different activity and functional connectivity at α, β, and γ frequencies—rhythms associated with visual processing, working memory, and motor suppression. To assess whether and how these multiple interacting rhythms contribute to periodicity in attention, we propose a detailed computational model of FEF and LIP, which reproduced the rhythmic dynamics and behavioral consequences of observed attentional states when driven by θ-rhythmic inputs simulating experimentally-observed pulvinar activity. This model reveals that the frequencies and mechanisms of the observed rhythms allow for peak sensitivity in visual target detection while maintaining functional flexibility.
Description
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