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A seven-week-old human baby following a kinetic object. Infant vision concerns the development of visual ability in human infants from birth through the first years of life. The aspects of human vision which develop following birth include visual acuity, tracking, color perception, depth perception, and object recognition.
First, there is an outpocketing of the neural tube called optic vesicles.Development of the optic vesicles starts in the 3-week embryo, from a progressively deepening groove in the neural plate called the optic sulcus.
[24] [25] [26] Recent research has even shown this ability in newborns only a few hours old. [27] However, other studies have shown similar results received by Michotte (1976) in infants as young as 6 months, but not younger. [28] [29] These studies support a more developmental progression of abilities required for the perception of causality.
It has been shown that artificial intelligent agents can be trained to exhibit object permanence. [28] [29] Building such agents revealed an interesting structure.The object permanence task involves several visual and reasoning components, where the most important ones are to detect a visible object, to learn how it moves and to reason about its movement even when it is not visible.
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An explorative study found, however, that 3- to 5-month-old infants can be taught independent standing, which was considered safe. [32] Passes objects between hands. [31] Some infantile reflexes, such as the palmar grasp reflex, go away. [31] Grabs objects using a raking grasp, where fingers rake at objects to pick them up. [31]
An example of the Landolt C eye chart (also known as the Japanese eye chart.). Numerous types of eye charts exist and are used in various situations. For example, the Snellen chart is designed for use at 6 meters or 20 feet, and is thus appropriate for testing distance vision, while the ETDRS chart is designed for use at 4 meters. [16]