Artem Pilzak scite author profile

Artem Pilzak

4Publications

3Citation Statements Received

134Citation Statements Given

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128

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University of Ottawa

Publications

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Estimating null and potent modes of feedforward communication in a computational model of cortical activity

Thivierge

Pilzak

2021

Preprint

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Communication across anatomical areas of the brain is key to both sensory and motor processes. Dimensionality reduction approaches have shown that the covariation of activity across cortical areas follows well-delimited patterns. Some of these patterns fall within the “potent space” of neural interactions and generate downstream responses; other patterns fall within the “null space” and prevent the feedforward propagation of synaptic inputs. Despite growing evidence for the role of null space activity in visual processing as well as preparatory motor control, a mechanistic understanding of its neural origins is lacking. Here, we developed a mean-rate model that allowed for the systematic control of feedforward propagation by potent and null modes of interaction. In this model, altering the number of null modes led to no systematic changes in firing rates, correlations, or mean synaptic strengths across areas, making it difficult to characterize feedforward communication with common measures of functional connectivity. A novel measure termed the null ratio captured the proportion of null modes relayed from one area to another. Applied to simultaneous recordings of primate cortical areas V1 and V2 during image viewing, the null ratio revealed that feedforward interactions have a broad null space that may reflect properties of visual stimuli.

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Estimating null and potent modes of feedforward communication in a computational model of cortical activity

Thivierge

Pilzak

2022

Sci Rep

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Communication across anatomical areas of the brain is key to both sensory and motor processes. Dimensionality reduction approaches have shown that the covariation of activity across cortical areas follows well-delimited patterns. Some of these patterns fall within the "potent space" of neural interactions and generate downstream responses; other patterns fall within the "null space" and prevent the feedforward propagation of synaptic inputs. Despite growing evidence for the role of null space activity in visual processing as well as preparatory motor control, a mechanistic understanding of its neural origins is lacking. Here, we developed a mean-rate model that allowed for the systematic control of feedforward propagation by potent and null modes of interaction. In this model, altering the number of null modes led to no systematic changes in firing rates, pairwise correlations, or mean synaptic strengths across areas, making it difficult to characterize feedforward communication with common measures of functional connectivity. A novel measure termed the null ratio captured the proportion of null modes relayed from one area to another. Applied to simultaneous recordings of primate cortical areas V1 and V2 during image viewing, the null ratio revealed that feedforward interactions have a broad null space that may reflect properties of visual stimuli.

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Learning to Stabilize Extreme Neural Machines with Metaplasticity

Boucher-Routhier

Pilzak

Charbonneau

et al. 2022

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Generating Robust Convolutional Networks by Injecting Partial Noise in the Training Data

Pilzak

Thivierge

2022

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Artem Pilzak

Estimating null and potent modes of feedforward communication in a computational model of cortical activity

Estimating null and potent modes of feedforward communication in a computational model of cortical activity

Learning to Stabilize Extreme Neural Machines with Metaplasticity

Generating Robust Convolutional Networks by Injecting Partial Noise in the Training Data

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