The majority of neurons in primary visual cortex respond selectively to bars of light that have a specific orientation and move in a specific direction. The spatial and temporal responses of such neurons are non-separable. How neurons accomplish that computational feat without resort to explicit time delays is unknown. We propose a novel neural mechanism whereby visual cortex computes non-separable responses by generating endogenous traveling waves of neural activity that resonate with the space-time signature of the visual stimulus. The spatiotemporal characteristics of the response are defined by the local topology of excitatory and inhibitory lateral connections in the cortex. We simulated the interaction between endogenous traveling wav...
The recurrent interaction among orientation-selective neurons in the primary visual cortex (V1) is s...
<div><p>Traveling waves of neuronal oscillations have been observed in many cortical regions, includ...
Abstract It is still an open question as to whether, and how, direction-selective neuronal responses...
SummaryThe visual cortex represents stimuli through the activity of neuronal populations. We measure...
How does the visual system determine the direction and speed of moving objects? In the primate brain...
Motion in the outside world forms one of the primary uses of visual information for many animals. Th...
Direction-selective neurons in the primary visual cortex (V1) and the extrastriate motion area MT/V5...
International audienceHow does the brain link visual stimuli across space and time? Visual illusions...
Electrode recordings and imaging studies have revealed that localized visual stimuli elicit waves of...
This thesis is a detailed description and analysis of a model of direction-selective simple cells in...
The interconnected areas of the visual system work together to find object boundaries in visual scen...
Direction selectivity (DS) of neuronal responses is fundamental for motion detection. How the integr...
Electrode recordings and imaging studies have revealed that localized visual stimuli elicit waves of...
How does the brain link visual stimuli across space and time? Visual illusions provide an experiment...
Dierent theoretical models have tried to investigate the feasibility of recurrent neural mechanisms ...
The recurrent interaction among orientation-selective neurons in the primary visual cortex (V1) is s...
<div><p>Traveling waves of neuronal oscillations have been observed in many cortical regions, includ...
Abstract It is still an open question as to whether, and how, direction-selective neuronal responses...
SummaryThe visual cortex represents stimuli through the activity of neuronal populations. We measure...
How does the visual system determine the direction and speed of moving objects? In the primate brain...
Motion in the outside world forms one of the primary uses of visual information for many animals. Th...
Direction-selective neurons in the primary visual cortex (V1) and the extrastriate motion area MT/V5...
International audienceHow does the brain link visual stimuli across space and time? Visual illusions...
Electrode recordings and imaging studies have revealed that localized visual stimuli elicit waves of...
This thesis is a detailed description and analysis of a model of direction-selective simple cells in...
The interconnected areas of the visual system work together to find object boundaries in visual scen...
Direction selectivity (DS) of neuronal responses is fundamental for motion detection. How the integr...
Electrode recordings and imaging studies have revealed that localized visual stimuli elicit waves of...
How does the brain link visual stimuli across space and time? Visual illusions provide an experiment...
Dierent theoretical models have tried to investigate the feasibility of recurrent neural mechanisms ...
The recurrent interaction among orientation-selective neurons in the primary visual cortex (V1) is s...
<div><p>Traveling waves of neuronal oscillations have been observed in many cortical regions, includ...
Abstract It is still an open question as to whether, and how, direction-selective neuronal responses...