Your search keyword '"Form perception -- Physiological aspects"' showing total 8 results

1. Connecting the dots: how local structure affects global integration in infants

Author

Palomares, Melanie, Pettet, Mark, Vildavski, Vladimir, Hou, Chuan, and Norcia, Anthony

Subjects

Infant psychology -- Research, Form perception -- Physiological aspects, Perception in infants -- Physiological aspects, Health, Psychology and mental health

Published

2010

2. Plastic modifications induced by object recognition memory processing

Author

Clarke, Julia Rosauro, Cammarota, Martin, Gruart, Agnes, Izquierdo, Ivan, and Delgado-Garcia, Jose Maria

Subjects

Neuroplasticity -- Evaluation, Long-term potentiation -- Research, Hippocampus (Brain) -- Properties, Form perception -- Physiological aspects, Science and technology

Abstract

Long-term potentiation (LTP) phenomenon is widely accepted as a cellular model of memory consolidation. Object recognition (OR) is a particularly useful way of studying declarative memory in rodents because it makes use of their innate preference for novel over familiar objects. In this study, mice had electrodes implanted in the hippocampal Schaffer collaterals-pyramidal CA1 pathway and were trained for OR. Field EPSPs evoked at the CA3-CA1 synapse were recorded at the moment of training and at different times thereafter. LTP-like synaptic enhancement was found 6 h post-training. A testing session was conducted 24 h after training, in the presence of one familiar and one novel object. Hippocampal synaptic facilitation was observed during exploration of familiar and novel objects. A short depotentiation period was observed early after the test and was followed by a later phase of synaptic efficacy enhancement. Here, we show that OR memory consolidation is accompanied by transient potentiation in the hippocampal CA3-CA1 synapses, while reconsolidation of this memory requires a short-lasting phase of depotentiation that could account for its well described vulnerability. The late synaptic enhancement phase, on the other hand, would be a consequence of memory restabilization. hippocampus | long-term potentiation | memory consolidation and reconsolidation | synaptic plasticity www.pnas.org/cgi/doi/10.1073/pnas.0915059107

Published

2010

3. Attention and biased competition in multi-voxel object representations

Author

Reddy, Leila, Kanwisher, Nancy G., and VanRullen, Rufin

Subjects

Competition (Psychology) -- Physiological aspects, Form perception -- Physiological aspects, Temporal lobes -- Properties, Attentional bias -- Physiological aspects, Science and technology

Abstract

The biased-competition theory accounts for attentional effects at the single-neuron level: It predicts that the neuronal response to simultaneously-presented stimuli is a weighted average of the response to isolated stimuli, and that attention biases the weights in favor of the attended stimulus. Perception, however, relies not on single neurons but on larger neuronal populations. The responses of such populations are in part reflected in large-scale multivoxel fMRI activation patterns. Because the pooling of neuronal responses into blood-oxygen-level-dependent signals is non-linear, fMRI effects of attention need not mirror those observed at the neuronal level. Thus, to bridge the gap between neuronal responses and human perception, it is fundamental to understand attentional influences in large-scale multivariate representations of simultaneously-presented objects. Here, we ask how responses to simultaneous stimuli are combined in multivoxel fMRI patterns, and how attention affects the paired response. Objects from four categories were presented singly, or in pairs such that each category was attended, unattended, or attention was divided between the two. In a multidimensional voxel space, the response to simultaneously-presented categories was well described as a weighted average. The weights were biased toward the preferred category in category-selective regions. Consistent with single-unit reports, attention shifted the weights by [approximately equal to]30% in favor of the attended stimulus. These findings extend the biased-competition framework to the realm of large-scale multivoxel brain activations. pattern classification | fMRI | response combination | ventral temporal cortex doi/ 10.1073/pnas.0907330106

Published

2009

4. Decoding cognitive control in human parietal cortex

Author

Esterman, Michael, Chiu, Yu-Chin, Tamber-Rosenau, Benjamin J., and Yantis, Steven

Subjects

Magnetic resonance imaging -- Methods, Form perception -- Physiological aspects, Short-term memory -- Physiological aspects, Parietal lobes -- Properties, Science and technology

Abstract

Efficient execution of perceptual-motor tasks requires rapid voluntary reconfiguration of cognitive task sets as circumstances unfold. Such acts of cognitive control, which are thought to rely on a network of cortical regions in prefrontal and posterior parietal cortex, include voluntary shifts of attention among perceptual inputs or among memory representations, or switches between categorization or stimulus-response mapping rules. A critical unanswered question is whether task set shifts in these different domains are controlled by a common, domain-independent mechanism or by separate, domain-specific mechanisms. Recent studies have implicated a common region of medial superior parietal lobule (mSPL) as a domain-independent source of cognitive control during shifts between perceptual, mnemonic, and rule representations. Here, we use fMRI and event-related multivoxel pattern classification to show that spatial patterns of brain activity within mSPL reliably express which of several domains of cognitive control is at play on a moment-by-moment basis. Critically, these spatio-temporal brain patterns are stable over time within subjects tested several months apart and across a variety of tasks, including shifting visuospatial attention, switching categorization rules, and shifting attention in working memory. fMRI | pattern classification | task switching | working memory doi/ 10.1073/pnas.0903593106

Published

2009

5. Sustained activities and retrieval in a computational model of the perirhinal cortex

Author

Vitay, Julien and Hamker, Fred H.

Subjects

Computer-generated environments -- Methods, Computer simulation -- Methods, Perirhinal cortex -- Properties, Perirhinal cortex -- Models, Form perception -- Physiological aspects, Form perception -- Models, Short-term memory -- Research, Health, Psychology and mental health

Published

2008

6. A comparison of surface and intramuscular myoelectric signal classification

Author

Hargrove, Levi J., Englehart, Kevin, and Hudgins, Bernard

Subjects

Form perception -- Research, Form perception -- Physiological aspects, Myoelectric prosthesis -- Usage, Myoelectric prosthesis -- Identification and classification, Isometric exercise -- Measurement, Biological sciences, Business, Computers, Health care industry

Abstract

The surface myoelectric signal (MES) has been used as an input to controllers for powered prostheses for many years. As a result of recent technological advances it is reasonable to assume that there will soon be implantable myoelectric sensors which will enable the internal MES to be used as input to these controllers. An internal MES measurement should have less muscular crosstalk allowing for more independent control sites. However, it remains unclear if this benefit outweighs the loss of the more global information contained in the surface MES. This paper compares the classification accuracy of six pattern recognition-based myoelectric controllers which use multi-channel surface MES as inputs to the same controllers which use multi-channel intramuscular MES as inputs. An experiment was designed during which surface and intramuscular MES were collected simultaneously for 10 different classes of isometric contraction. There was no significant difference in classification accuracy as a result of using the intramuscular MES measurement technique when compared to the surface MES measurement technique. Impressive classification accuracy (97 %) could be achieved by optimally selecting only three channels of surface MES. Index Terms--Classification, EMG, intramuscular, myoelectric, pattern recognition, prostheses.

Published

2007

7. Role of layer 6 of V2 visual cortex in object-recognition memory

Author

Lopez-Aranda, Manuel F., Lopez-Tellez, Juan F., Navarro-Lobato, Irene, Masmudi-Martin, Mariam, Gutierrez, Antonia, and Khan, Zafar U.

Subjects

Visual cortex -- Properties, Form perception -- Physiological aspects, Neurons -- Properties, Science and technology

Abstract

Cellular responses in the V2 secondary visual cortex to simple as well as complex visual stimuli have been welt studied. However, the role of area V2 in visual memory remains unexplored. We found that layer 6 neurons of V2 are crucial for the processing of object-recognition memory (ORM). Using the protein regulator of G protein signaling--14 (RGS-14) as a tool we found that the expression of this protein into layer 6 neurons of rat-brain area V2 promoted the conversion of a normal short-term ORM that normally lasts for 45 minutes into tong-term memory detectable even after many months. Furthermore, elimination of the same-layer neurons by means of injection of a selective cytotoxin resulted in the complete loss of normal as welt as protein-mediated enhanced ORM.

Published

2009

8. Mirror neurons: imitation and emotional differences among males and females

Author

Reale, AmberRose (author), Rosselli, Monica (Thesis advisor), Florida Atlantic University (Degree grantor), Charles E. Schmidt College of Science, Department of Psychology, Reale, AmberRose (author), Rosselli, Monica (Thesis advisor), Florida Atlantic University (Degree grantor), Charles E. Schmidt College of Science, and Department of Psychology

Abstract

Summary: The mirror neuron system consists of a specific class of visuomotor neurons, which fire for both observation and execution of an action (di Pellegrino et al., 1992), as well as showing differences for empathy and gender. Fifty males (M = 25.94) and fifty females (M = 25.48) watched short clips of a hand tapping fingers in a sequence in neutral and emotional settings. Participants were asked to imitate emotions while watching and repeating the finger sequences. A univariate ANOVA discovered significant differences in response times for males and females in the emotion trials, which were eliminated when empathy was included in the analysis. Findings show those higher in empathy are faster at imitation of a motor task in emotional settings., 2014, Includes bibliography., Degree granted: Thesis (M.A.)--Florida Atlantic University, 2014., Collection: FAU Electronic Theses and Dissertations Collection

Published

2014