Recurrent Inhibition Refines Mental Templates To Optimize Perceptual Decisions
Recurrent Inhibition Refines Mental Templates To Optimize Perceptual Decisions - Data for recurrent inhibition refines mental templates to optimize perceptual decisions. Here, we provide evidence for recurrent inhibition: We trained observers to discriminate visual forms. Jia k, wang m, steinwurzel c, ziminski jj, xi y, emir u, kourtzi z. Here, we provide evidence for recurrent inhibition: Here, we provide evidence for recurrent inhibition: Here, we provide evidence for recurrent inhibition:
Here, we provide evidence for recurrent inhibition: Recurrent inhibition refines mental templates to optimize perceptual decisions. Here, we provide evidence for recurrent inhibition: It is demonstrated that gabaergic inhibition increases following training on a visual discrimination task, enhancing the discriminability of orientation representations in.
We trained observers to discriminate visual forms. Here, we provide evidence for recurrent inhibition: First, we show that training alters orientation. In particular, increased parietal gaba with training Here, we provide evidence for recurrent inhibition: Data for recurrent inhibition refines mental templates to optimize perceptual decisions.
Model of recurrent inhibition explains the oscillations. (A) Recurrent
Recurrent inhibition refines mental templates to optimize perceptual
Recurrent inhibition refines mental templates to optimize perceptual
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Active decorrelation by local inhibitory network requires sparse
Recurrent inhibition refines mental templates to optimize perceptual
Recurrent inhibition refines mental templates to optimize perceptual
Recurrent inhibition refines mental templates to optimize perceptual
Model of recurrent inhibition explains the oscillations. (A) Recurrent
For more details, please see attached file: Recurrent inhibition refines mental templates to optimize perceptual decisions. Here, we provide evidence for recurrent inhibition: Here, we propose recurrent inhibition: We trained observers to discriminate visual forms.
An integrative brain plasticity mechanism for improving perceptual decisions. It is demonstrated that gabaergic inhibition increases following training on a visual discrimination task, enhancing the discriminability of orientation representations in. In particular, increased parietal gaba with training Here, we provide evidence for recurrent inhibition:
An Integrative Brain Plasticity Mechanism For Improving Perceptual Decisions.
Here, we propose recurrent inhibition: Our results reveal distinct gabaergic inhibition mechanisms in a cortical network that is known to be involved in perceptual decisions. Here, we provide evidence for recurrent inhibition: Here, we identify the mechanisms that the brain uses to implement templates for perceptual decisions through experience.
Recurrent Inhibition Refines Mental Templates To Optimize Perceptual Decisions Science Advances, Kourtzi, Z., 2024 (Accepted For Publication).
Here, we provide evidence for recurrent inhibition: We trained observers to discriminate visual forms. Here, we provide evidence for recurrent inhibition: Here, we propose recurrent inhibition:
Here, We Provide Evidence For Recurrent Inhibition:
Jia k, wang m, steinwurzel c, ziminski jj, xi y, emir u, kourtzi z. It is demonstrated that gabaergic inhibition increases following training on a visual discrimination task, enhancing the discriminability of orientation representations in. Recurrent inhibition refines mental templates to optimize perceptual decisions. First, we show that training alters orientation.
32 Refines Mental Templates By Enhancing Gabaergic Inhibition And Recurrent Processing In 33 Superficial Visual Cortex Layers.
For more details, please see attached file: Here, we provide evidence for recurrent inhibition: Data for recurrent inhibition refines mental templates to optimize perceptual decisions. Combining fmri at submillimeter resolution with magnetic.
Here, we provide evidence for recurrent inhibition: First, we show that training alters orientation. An integrative brain plasticity mechanism for improving perceptual decisions. Here, we identify the mechanisms that the brain uses to implement templates for perceptual decisions through experience. Combining fmri at submillimeter resolution with magnetic.