What are stabilized images?
stabilized images are images that are fixed on the retina and are not disturbed by eye micromovers. Studies in stabilized images find that they disappear from a perspective and become imperceptible, which is an important adaptation that provides interesting information about visual perception and function of the brain. Science for stabilized images seems complex and includes a number of neurological processes that play a role in perception and evaluation of information. This vessel should be visible as tangled by the thread in vision as they interrupt the flow of light into the eye and should throw shadows on the retina. This is not really the case; People do not see their blood vessels if very bright light shines into the eye and moves the cast of the shadows.
The brain has clearly adapted to the vessels in the eye to make them in normal vision to clarify the vision. These stabilized images move through the eye as they move because the containers are inside the eye and therefore remain solid with respect to the retina. Studies of stabilized images can use a series of technicTo explore the perception and testing of theories about how this phenomenon works. The mechanics behind it lie in the brain centers of visual processing, which passes through the information sent along the optical nerve to create a meaningful image.
One option is to have objects to stare at the picture and keep your eyes. Involuntary micromovers that occur automatically will not affect the image. Using something as a dark dot projected in the middle of a gray cloud without a clear edge, the researcher can prove that holding eyes still allows the gray cloud to fade and leave only a dot. Students learn about visualization can do such exercises to learn how stabilized images work.
In more extensive experiments, subjects can wear specialized headgear that projects the image and detects eye movements to move the image of the eye. Stabilized images disappear from the point of view when the eye adapts and adjusts them. This phenomenon shows that vision is much more complicated than mere zoAcid light that hits the retina. The brain learns to refuse fixed information, provided it is not relevant, and uses tactics such as Edge detection to provide meaningful information about the object.