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Monocular vision is known as seeing and using only one eye in the human species. Depth perception in monocular vision is reduced compared to binocular vision, but still is active primarily due to accommodation of the eye and motion parallax. The word monocular comes from the Greek root, mono for single, and the Latin root, oculus for eye.
Depth perception arises from a variety of depth cues. These are typically classified into binocular cues and monocular cues. Binocular cues are based on the receipt of sensory information in three dimensions from both eyes and monocular cues can be observed with just one eye.
Monocular cues can be used by a single eye with hints from the environment. These hints include relative height, relative size, linear perspective, lights and shadows, and relative motion. [ 15 ] Each hint helps to establish small facts about a scene that work together to form a perception of depth.
How the brain combines different cues, including stereo cues, motion cues (both temporal changes in disparity and monocular velocity ratios [8]), vergence angle and monocular cues for sensing motion in depth and 3D object position is an area of active research in vision science and neighboring disciplines. [9] [10] [11]
There are indications that the brain uses various cues, in particular temporal changes in disparity as well as monocular velocity ratios, for producing a sensation of motion in depth. [15] Two different binocular cues of the perception motion in depth are hypothesized: Inter-ocular velocity difference (IOVD) and changing disparity (CD) over time.
Another possibility is that axonal guidance cues may guide the formation, or a combination of mechanisms may be at work. It is known that ocular dominance columns develop before birth , which indicates that if an activity dependent mechanism is involved it must work based on intrinsic activity rather than being sensory experience dependent. [ 10 ]
From static cues based upon monocular vision, infants older of five month of age have the ability to predict depth perception from pictorial position of objects. [21] In other words, edges of closer objects overlap objects in the distance. [22] Lastly, kinetic cues are another factor in depth perception for humans, especially young infants.
Interocular transfer occurs in the relational-motion detectors, which are of the binocular or monocular class. The study confirms the presence on interocular transfer of MAE, and localizes the adaptation for MAE in either an individual's eye, or the brain areas which combine the information from both set of eyes.