Add to ORKGInternational audienceFixational eye movements are common across vertebrates, yet their functional roles, if any, are debated. To investigate this issue, we exposed the Virtual Retina simulator to natural images, generated realistic drifts and microsaccades using the model of ref, and analyzed the output spike trains of the parvocellular retinal ganglion cells (RGC)
International audienceHow does the visual system differentiate self-generated motion from motion in ...
How does the visual system differentiate self-generated motion from motion in the external world? Hu...
AbstractWe have modelled the effect of microsaccades on retinal responses to achromatic borders and ...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceIt is now reasonably well established that microsaccades (MS) enhance visual p...
International audienceIt is now reasonably well established that microsaccades (MS) enhance visual p...
International audienceIt is now reasonably well established that microsaccades (MS) enhance visual p...
International audienceIt is now reasonably well established that microsaccades (MS) enhance visual p...
Fixational eye movements are common across verte-brates, yet their functional roles, if any, are deb...
AbstractWe have modelled the effect of microsaccades on retinal responses to achromatic borders and ...
SummaryHumans and other species continually perform microscopic eye movements, even when attending t...
International audienceHow does the visual system differentiate self-generated motion from motion in ...
How does the visual system differentiate self-generated motion from motion in the external world? Hu...
AbstractWe have modelled the effect of microsaccades on retinal responses to achromatic borders and ...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceFixational eye movements are common across vertebrates, yet their functional r...
International audienceIt is now reasonably well established that microsaccades (MS) enhance visual p...
International audienceIt is now reasonably well established that microsaccades (MS) enhance visual p...
International audienceIt is now reasonably well established that microsaccades (MS) enhance visual p...
International audienceIt is now reasonably well established that microsaccades (MS) enhance visual p...
Fixational eye movements are common across verte-brates, yet their functional roles, if any, are deb...
AbstractWe have modelled the effect of microsaccades on retinal responses to achromatic borders and ...
SummaryHumans and other species continually perform microscopic eye movements, even when attending t...
International audienceHow does the visual system differentiate self-generated motion from motion in ...
How does the visual system differentiate self-generated motion from motion in the external world? Hu...
AbstractWe have modelled the effect of microsaccades on retinal responses to achromatic borders and ...