| 21.09.22 |
David Berling |
Closed-loop optogenetic control of neural activity (link1, link2) |
Charles University |
| 05.10.22 |
Karolína Korvasová |
Topological analysis of population activity in visual cortex |
Charles University |
| 12.10.22 |
Tibor Rózsa |
Distinguishing externally from saccade-induced motion in visual cortex |
Charles University |
| 19.10.22 |
Rémy Cagnol |
The functional organization of cortical feedback inputs to primary visual cortex |
Charles University |
| 26.10.22 |
Luca Baroni |
Learning invariance manifolds of visual sensory neurons |
Charles University |
| 02.11.22 |
Ján Antolík |
Targeted cortical stimulation reveals principles of cortical contextual interactions |
Charles University |
| 30.11.22 |
Karolína Korvasová |
Reconstructing imagined letters from V1 reveals tight topographic correspondence between visual mental imagery and perception |
Charles University |
| 07.12.22 |
Anna Agafonova |
Visual cortex neurons phase-lock selectively to subsets of LFP oscillations |
Charles University |
| 14.12.22 |
Matej Voldřich |
Experience drives the development of novel, reliable cortical sensory representations from endogenously structured networks |
Charles University |
| 21.12.22 |
Martin Picek |
Perception-to-Image: Reconstructing Natural Images from the Brain Activity of Visual Perception |
Charles University |
| 04.01.23 |
Jakub Kopko |
Quantifying the distribution of feature values over data represented in arbitrary dimensional spaces |
Charles University |
| 11.01.23 |
Luca Baroni |
Perceptography: unveiling visual perceptual hallucinations induced by optogenetic stimulation of the inferior temporal cortex |
Charles University |
| 18.01.23 |
Anna Agafonova |
Hemispherically lateralized rhythmic oscillations in the cingulate-amygdala circuit drive affective empathy in mice |
Charles University |
| 25.01.23 |
David Berling |
Data-driven reduction of dendritic morphologies with preserved dendro-somatic responses |
Charles University |
| 23.02.23 |
Karolína Korvasová |
Long-term stability of cortical population dynamics underlying consistent behavior |
Charles University |
| 01.03.23 |
Tibor Rózsa |
Stream-specific feedback inputs to the primate primary visual cortex |
Charles University |
| 08.03.23 |
Jan Antolik |
Targeted cortical stimulation reveals principles of cortical contextual interactions |
Charles University |
| 15.03.23 |
Rémy Cagnol |
Unifying model for three forms of contextual modulation including feedback input from higher visual areas |
Charles University |
| 29.03.23 |
Tibor Rózsa |
A model for the development of binocular congruence in primary visual cortex |
Charles University |
| 05.04.23 |
David Berling |
Pulse trains to percepts: A virtual patient describing the perceptual effects of human visual cortical stimulation |
Charles University |
| 19.04.23 |
Jakub Kopko |
Precision dynamical mapping using topological data analysis reveals a hub-like transition state at rest |
Charles University |
| 26.04.23 |
Pavel Haman |
Review: morphological and functional properties and differences of cells across layers of cat V1 |
Charles University |
| 03.05.23 |
Yogesh Singh |
A network model of the modulation of gamma oscillations by NMDA receptors in cerebral cortex |
Charles University |
| 10.05.23 |
Luca Baroni |
Pattern completion and disruption characterize contextual modulation in mouse visual cortex |
Charles University |
| 17.05.23 |
Luca Baroni |
Biologically plausible phosphene simulation for the differentiable optimization of visual cortical prostheses |
Charles University |
| 24.05.23 |
Anna Agafonova |
Layer and rhythm specificity for predictive routing |
Charles University |
| 29.05.23 |
Karolína Korvasová |
Spike-phase coupling patterns reveal laminar identity in primate cortex |
Charles University |
| 19.06.23 |
Pavel Haman |
Biologically Realistic Mean-Field Models of Conductance-Based Networks of Spiking Neurons with Adaptation |
Charles University |
| 26.06.23 |
Tibor Rózsa |
Statistical modeling of adaptive neural networks explains co-existence of avalanches and oscillations in resting human brain |
Charles University |