Forwarded from Scientific Programming (ZiAEE)
Twitter
Dan Goodman
I'm accepting applications for PhD students in computational neuroscience, with a particular interest in, but not limited to, applications of machine learning to neuroscience. See website for details, and please pass on to anyone who might be interested.…
This workshop is being live streamed on our website. Full participation (including the capacity to ask questions) will be available via Zoom webinar.
Link: Simons
#Neuroscience
Follow: @theTuringMachine
Link: Simons
#Neuroscience
Follow: @theTuringMachine
Bringing Together the World's Leading Researchers and Scholars in Theoretical Computer Science
Link: Simons
#Introduction
Follow: @theTuringMachine
Link: Simons
#Introduction
Follow: @theTuringMachine
Goal-directed and stimulus-driven selection of internal representations
Abstract:
Adaptive behavior relies on the selection of relevant sensory information from both the external environment and internal memory representations. In understanding external selection, a classic distinction is made between voluntary (goal-directed) and involuntary (stimulus-driven) guidance of attention. We have developed a task—the anti-retrocue task—to separate and examine voluntary and involuntary guidance of attention to internal representations in visual working memory. We show that both voluntary and involuntary factors influence memory performance but do so in distinct ways. Moreover, by tracking gaze biases linked to attentional focusing in memory, we provide direct evidence for an involuntary “retro-capture” effect whereby external stimuli involuntarily trigger the selection of feature-matching internal representations. We show that stimulus-driven and goal-directed influences compete for selection in memory, and that the balance of this competition—as reflected in oculomotor signatures of internal attention—predicts the quality of ensuing memory-guided behavior. Thus, goal-directed and stimulus-driven factors together determine the fate not only of perception, but also of internal representations in working memory.
Read More: https://t.co/d7duhY1Bbj
#articles
Abstract:
Adaptive behavior relies on the selection of relevant sensory information from both the external environment and internal memory representations. In understanding external selection, a classic distinction is made between voluntary (goal-directed) and involuntary (stimulus-driven) guidance of attention. We have developed a task—the anti-retrocue task—to separate and examine voluntary and involuntary guidance of attention to internal representations in visual working memory. We show that both voluntary and involuntary factors influence memory performance but do so in distinct ways. Moreover, by tracking gaze biases linked to attentional focusing in memory, we provide direct evidence for an involuntary “retro-capture” effect whereby external stimuli involuntarily trigger the selection of feature-matching internal representations. We show that stimulus-driven and goal-directed influences compete for selection in memory, and that the balance of this competition—as reflected in oculomotor signatures of internal attention—predicts the quality of ensuing memory-guided behavior. Thus, goal-directed and stimulus-driven factors together determine the fate not only of perception, but also of internal representations in working memory.
Read More: https://t.co/d7duhY1Bbj
#articles
PNAS
Goal-directed and stimulus-driven selection of internal representations
Everyday behavior relies on continuously selecting relevant information from the external environment as well as from internal representations in working memory. In describing the selection of external objects, a longstanding distinction is proposed between…
Interesting paper!
https://psyarxiv.com/vwure
https://psyarxiv.com/vwure
PsyArXiv
Apical drive - a cellular mechanism of dreaming?
Dreams are internally generated experiences that occur independently of current sensory input. Here we argue, based on cortical anatomy and function, that dream experiences are tightly related to the workings of a specific part of cortical pyramidal neurons…
the Turing Machine
https://t.co/YjyruR6FUj #Neuroscience
Nature
Deep posteromedial cortical rhythm in dissociation
Nature - Dissociative states in mouse and human brains are traced to low-frequency rhythmic neural activity—with distinct molecular, cellular and physiological properties—in the deep...