Researchers use afterimages to prove the brain predicts eye movements with 94% accuracy, revealing the internal "efference copy" mechanism that keeps our vision stable.

Every time the human eye darts from one point to another, the retinal image smears across the visual field. These rapid jumps ...

Our eyes alone do not provide us with a continuous and stable view of the world. They jump several times each second in rapid movements called saccades. Because the eye projects the world onto the ...

Researchers reconstructed what predatory mammals see during pursuit and found that saccades align the retina to world motion and not the actual prey.These eye movements enable the world to remain ...

Saccadic eye movements pose many challenges for stable and continuous vision, such as how information from successive fixations is amalgamated into a single precept. Here we show in humans that motion ...

During rapid eye movements, motion of the stationary world is generally not perceived despite displacement of the whole image on the retina. Here we report that during saccades, human observers sensed ...

Researches from Stony Brook University, NVIDIA, and Adobe have devised a system which hides so-called ‘redirected walking’ techniques using saccades, natural eye movements which act like a momentary ...

We move our eyes several times per second. These fast eye movements, called saccades, create large image shifts on the retina -- making our visual system work hard to maintain a stable perceptual ...

How do predators use their vision to both navigate through the terrain whilst tracking prey running for its life? Pursuing prey through a complex environment is a major challenge for the visual system ...

When sitting still, eye saccades are used to track targets of interest but how are saccades used when pursuing prey while simultaneously navigating through complex environments? To solve this question ...