Cognitive penetration: Would we know it if we saw it?

How can the impenetrability hypothesis be empirically tested? We comment on the role of signal detection measures, suggesting that context effects on discriminations for which post-perceptual cues are irrelevant, or on neural activity associated with early vision, would challenge impenetrability. We also note the great computational power of the proposed pre-perceptual attention processes and consider the implications for testability of the theory.

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Top-Down Processing and Visual Reorientation Illusions in a Virtual Reality Environment

Swiss Journal of Psychology ◽

10.1024/1421-0185.63.3.143 ◽

2004 ◽

Vol 63 (3) ◽

pp. 143-149 ◽

Cited By ~ 3

Author(s):

Fred W. Mast ◽

Charles M. Oman

Keyword(s):

Virtual Reality ◽

Visual Processing ◽

Line Length ◽

Perceptual Cues ◽

Virtual Reality Environment ◽

Top Down ◽

Test Conditions ◽

The Subject ◽

Processing Mechanisms

The role of top-down processing on the horizontal-vertical line length illusion was examined by means of an ambiguous room with dual visual verticals. In one of the test conditions, the subjects were cued to one of the two verticals and were instructed to cognitively reassign the apparent vertical to the cued orientation. When they have mentally adjusted their perception, two lines in a plus sign configuration appeared and the subjects had to evaluate which line was longer. The results showed that the line length appeared longer when it was aligned with the direction of the vertical currently perceived by the subject. This study provides a demonstration that top-down processing influences lower level visual processing mechanisms. In another test condition, the subjects had all perceptual cues available and the influence was even stronger.

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Faculty Opinions recommendation of An important role of neural activity-dependent CaMKIV signaling in the consolidation of long-term memory.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1000758.12183 ◽

2001 ◽

Author(s):

Alcino Silva

Keyword(s):

Neural Activity ◽

Long Term Memory ◽

Term Memory ◽

Activity Dependent

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Perceptual Attention

10.1093/oso/9780198757405.003.0005 ◽

2018 ◽

Author(s):

Jonardon Ganeri

Keyword(s):

Phenomenal Character ◽

Conscious Experience ◽

Perceptual Attention ◽

Conscious Attention

Conscious attention performs two distinct roles in experience, a role of placing and a role of focusing, roles which match a distinction between selection and access endorsed in recent theories of attention. The intentionality of conscious experience consists in two sorts of attentional action, a focusing at and a placing on, the first lending to experience a perspectival categorical content and the second structuring its phenomenal character. Placing should be thought of more like opening a window for consciousness than as shining a spotlight, and focusing has to do with accessing the properties of whatever the window opens onto. A window is an aperture whose boundaries are defined by what is excluded—in this case, distractors.

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The role of visual feedback in detecting and correcting typing errors: A signal detection approach

Journal of Memory and Language ◽

10.1016/j.jml.2020.104193 ◽

2021 ◽

Vol 117 ◽

pp. 104193

Author(s):

Svetlana Pinet ◽

Nazbanou Nozari

Keyword(s):

Signal Detection ◽

Visual Feedback ◽

Detection Approach

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Role of dynamic cues in monaural and binaural signal detection

The Journal of the Acoustical Society of America ◽

10.1121/1.381296 ◽

1977 ◽

Vol 61 (2) ◽

pp. 542-551 ◽

Cited By ~ 4

Author(s):

D. Wesley Grantham ◽

Donald E. Robinson

Keyword(s):

Signal Detection

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Dissociable oscillatory networks support gain and loss processing in human orbitofrontal cortex

10.1101/2021.02.25.432874 ◽

2021 ◽

Author(s):

Ignacio Saez ◽

Jack Lin ◽

Edward Chang ◽

Josef Parvizi ◽

Robert T. Knight ◽

...

Keyword(s):

Neural Activity ◽

Orbitofrontal Cortex ◽

Low Frequency ◽

Brain Regions ◽

Reward Processing ◽

Neural Oscillations ◽

Beta Band ◽

Neuronal Ensembles ◽

Gain And Loss

AbstractHuman neuroimaging and animal studies have linked neural activity in orbitofrontal cortex (OFC) to valuation of positive and negative outcomes. Additional evidence shows that neural oscillations, representing the coordinated activity of neuronal ensembles, support information processing in both animal and human prefrontal regions. However, the role of OFC neural oscillations in reward-processing in humans remains unknown, partly due to the difficulty of recording oscillatory neural activity from deep brain regions. Here, we examined the role of OFC neural oscillations (<30Hz) in reward processing by combining intracranial OFC recordings with a gambling task in which patients made economic decisions under uncertainty. Our results show that power in different oscillatory bands are associated with distinct components of reward evaluation. Specifically, we observed a double dissociation, with a selective theta band oscillation increase in response to monetary gains and a beta band increase in response to losses. These effects were interleaved across OFC in overlapping networks and were accompanied by increases in oscillatory coherence between OFC electrode sites in theta and beta band during gain and loss processing, respectively. These results provide evidence that gain and loss processing in human OFC are supported by distinct low-frequency oscillations in networks, and provide evidence that participating neuronal ensembles are organized functionally through oscillatory coherence, rather than local anatomical segregation.

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Key aspects of neurovascular control mediated by specific populations of inhibitory cortical interneurons

10.1101/550269 ◽

2019 ◽

Author(s):

L Lee ◽

L Boorman ◽

E Glendenning ◽

C Christmas ◽

P Sharp ◽

...

Keyword(s):

Neural Activity ◽

Cortical Inhibition ◽

Cortical Interneurons ◽

Haemodynamic Changes ◽

A Cell ◽

Cortical Excitation ◽

Negative Bold ◽

Key Aspects ◽

Oxide Synthase

AbstractInhibitory interneurons can evoke vasodilation and vasoconstriction, making them potential cellular drivers of neurovascular coupling. However, the specific regulatory roles played by particular interneuron subpopulations remain unclear. Our purpose was therefore to adopt a cell-specific optogenetic approach to investigate how somatostatin (SST) and neuronal nitric oxide synthase (NOS1)-expressing interneurons might influence neurovascular relationships. In mice, specific activation of SST- or NOS1-interneurons was sufficient to evoke haemodynamic changes similar to those evoked by physiological whisker stimulation. In the case of NOS1-interneurons, robust haemodynamic changes occurred with minimal changes in neural activity. Conversely, activation of SST-interneurons produced robust changes in evoked neural activity with shallow cortical excitation and pronounced deep layer cortical inhibition. This often resulted in a central increase in blood volume with corresponding surround decrease, analogous to the negative BOLD signal. These results demonstrate the role of specific populations of cortical interneurons in the active control of neurovascular function.

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Neuronal pattern separation of motion-relevant input in LIP activity

Journal of Neurophysiology ◽

10.1152/jn.00145.2016 ◽

2017 ◽

Vol 117 (2) ◽

pp. 738-755 ◽

Cited By ~ 3

Author(s):

Nareg Berberian ◽

Amanda MacPherson ◽

Eloïse Giraud ◽

Lydia Richardson ◽

J.-P. Thivierge

Keyword(s):

Neuronal Activity ◽

Neural Activity ◽

Population Model ◽

Visual Motion ◽

Temporal Dynamics ◽

Strong Predictor ◽

Pattern Separation ◽

Sensory Stimuli ◽

Sensory Discrimination

In various regions of the brain, neurons discriminate sensory stimuli by decreasing the similarity between ambiguous input patterns. Here, we examine whether this process of pattern separation may drive the rapid discrimination of visual motion stimuli in the lateral intraparietal area (LIP). Starting with a simple mean-rate population model that captures neuronal activity in LIP, we show that overlapping input patterns can be reformatted dynamically to give rise to separated patterns of neuronal activity. The population model predicts that a key ingredient of pattern separation is the presence of heterogeneity in the response of individual units. Furthermore, the model proposes that pattern separation relies on heterogeneity in the temporal dynamics of neural activity and not merely in the mean firing rates of individual neurons over time. We confirm these predictions in recordings of macaque LIP neurons and show that the accuracy of pattern separation is a strong predictor of behavioral performance. Overall, results propose that LIP relies on neuronal pattern separation to facilitate decision-relevant discrimination of sensory stimuli. NEW & NOTEWORTHY A new hypothesis is proposed on the role of the lateral intraparietal (LIP) region of cortex during rapid decision making. This hypothesis suggests that LIP alters the representation of ambiguous inputs to reduce their overlap, thus improving sensory discrimination. A combination of computational modeling, theoretical analysis, and electrophysiological data shows that the pattern separation hypothesis links neural activity to behavior and offers novel predictions on the role of LIP during sensory discrimination.

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The role of perceptual cues in the delayed reaction.

Journal of Comparative and Physiological Psychology ◽

10.1037/h0043337 ◽

1960 ◽

Vol 53 (2) ◽

pp. 176-179 ◽

Cited By ~ 5

Author(s):

William D. Bliss

Keyword(s):

Perceptual Cues ◽

Delayed Reaction

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Exploring the role of expectations and stimulus relevance on stimulus-specific neural representations and conscious report

Neuroscience of Consciousness ◽

10.1093/nc/niz011 ◽

2019 ◽

Vol 2019 (1) ◽

Cited By ~ 2

Author(s):

Erik L Meijs ◽

Pim Mostert ◽

Heleen A Slagter ◽

Floris P de Lange ◽

Simon van Gaal

Keyword(s):

Attentional Blink ◽

Neural Activity ◽

Subjective Experience ◽

Activity Patterns ◽

Neural Mechanisms ◽

Top Down ◽

Neural Representations ◽

Dependent Signal ◽

Task Irrelevant

Abstract Subjective experience can be influenced by top-down factors, such as expectations and stimulus relevance. Recently, it has been shown that expectations can enhance the likelihood that a stimulus is consciously reported, but the neural mechanisms supporting this enhancement are still unclear. We manipulated stimulus expectations within the attentional blink (AB) paradigm using letters and combined visual psychophysics with magnetoencephalographic (MEG) recordings to investigate whether prior expectations may enhance conscious access by sharpening stimulus-specific neural representations. We further explored how stimulus-specific neural activity patterns are affected by the factors expectation, stimulus relevance and conscious report. First, we show that valid expectations about the identity of an upcoming stimulus increase the likelihood that it is consciously reported. Second, using a series of multivariate decoding analyses, we show that the identity of letters presented in and out of the AB can be reliably decoded from MEG data. Third, we show that early sensory stimulus-specific neural representations are similar for reported and missed target letters in the AB task (active report required) and an oddball task in which the letter was clearly presented but its identity was task-irrelevant. However, later sustained and stable stimulus-specific representations were uniquely observed when target letters were consciously reported (decision-dependent signal). Fourth, we show that global pre-stimulus neural activity biased perceptual decisions for a ‘seen’ response. Fifth and last, no evidence was obtained for the sharpening of sensory representations by top-down expectations. We discuss these findings in light of emerging models of perception and conscious report highlighting the role of expectations and stimulus relevance.

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