In
psychology, 'visual perception' is the ability to interpret
visible light information reaching the
eyes which is then made available for planning and action. The resulting
perception is also known as 'eyesight', 'sight' or 'vision'. The various components involved in vision are known as the
visual system.
Visual system
Main articles: Visual system
The
visual system allows us to assimilate information from the environment to help guide our actions. The act of seeing starts when the
lens of the
eye focus an image of the outside world onto a light-sensitive membrane in the back of the eye, called the
retina. The retina is actually part of the
brain that is isolated to serve as a
transducer for the conversion of patterns of light into neuronal signals. The
lens of the
eye focuses light on the
photoreceptive cells of the retina, which detect the
photons of light and respond by producing
neural impulses. These signals are processed in a
hierarchical fashion by different parts of the brain, from the retina to the
lateral geniculate nucleus, to the primary and secondary
visual cortex of the
brain.
Study of visual perception
The major problem in visual perception is that what people see is not simply a translation of retinal stimuli (i.e., the image on the retina). Thus people interested in perception have long struggled to explain what visual processing does to create what we actually see.
Early studies on visual perception
Ibn al-Haytham (Alhacen), the "father of
optics", pioneered the
scientific study of the psychology of visual perception in his influential ''
Book of Optics'' in the
1000s, being the first
scientist to argue that vision occurs in the brain, rather than the eyes. He pointed out that personal experience has an affect on what people see and how they see, and that vision and perception are subjective. He explained possible errors in vision in detail, and as an example, describes how a small child with less experience may have more difficulty interpreting what he/she sees. He also gives an example of an adult that can make mistakes in vision because of how one's experience suggests that he/she is seeing one thing, when he/she is really seeing something else.
[Bradley Steffens (2006). ''Ibn al-Haytham: First Scientist'', Chapter 5. Morgan Reynolds Publishing. ISBN 1599350246.]
Ibn al-Haytham's investigations and
experiments on visual perception also included
sensation, variations in
sensitivity, sensation of
touch,
perception of colours, perception of
darkness, the psychological explanation of the
moon illusion, and
binocular vision.
[ Alhazen's neglected discoveries of visual phenomena, Howard, I, , , Perception, 1996 ][ Who Is the Founder of Psychophysics and Experimental Psychology?, Omar Khaleefa, , , American Journal of Islamic Social Sciences, 1999 ]
Unconscious inference
Human eyes
is often credited with the first study of visual perception in
modern times. Helmholtz held vision to be a form of unconscious
inference: vision is a matter of deriving a probable interpretation for incomplete data.
Inference requires prior assumptions about the world: two well-known assumptions that we make in processing visual information are that light comes from above, and that objects are viewed from above and not below. The study of
visual illusions (cases when the inference process goes wrong) has yielded much insight into what sort of assumptions the visual system makes.
The unconscious inference hypothesis has recently been revived in so-called
Bayesian studies of visual perception. Proponents of this approach consider that the visual system performs some form of
Bayesian inference to derive a perception from sensory data. Models based on this idea have been used to describe various visual subsystems, such as the perception of
motion or the perception of
depth.
[1][2]
Gestalt theory
Main articles: Gestalt psychology
Gestalt psychologists working primarily in the 1930s and 1940s raised many of the research questions that are studied by vision scientists today.
The Gestalt 'Laws of Organization' have guided the study of how people perceive visual components as organized patterns or wholes, instead of many different parts. Gestalt is a German word that translates to "configuration or pattern". According to this theory, there are six main factors that determine how we group things according to visual perception: Proximity, Similarity, Closure, Symmetry, Common fate and Continuity.
The major problem with the Gestalt laws (and the Gestalt school generally) is that they are ''descriptive'' not ''explanatory''. For example, one cannot explain how humans see continuous contours by simply stating that the brain "prefers good continuity".
Computational models of vision have had more success in explaining visual phenomena
[3] and have largely superseded Gestalt theory.
See also
★
Color vision
★
Motion perception
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Depth perception
★
Visual illusion
Disorders/Dysfunctions
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Achromatopsia
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Color blindness
★
Scotopic Sensitivity Syndrome
Related Disciplines
★
Psychophysics
★
Neuroscience
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Cognitive Science
★
Optometry
★
Ophthalmology
References
1. Mamassian, Landy & Maloney (2002)
2. A Primer on Probabilistic Approaches to Visual Perception
3. Computational models of contour integration, by Steve Dakin
External links
★
Empiristic theory of visual gestalt perception
★
Visual Perception 3 - Cultural and Environmental Factors
★
Gestalt Laws
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Summary of Kosslyn et al.'s theory of high-level vision
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The Organization of the Retina and Visual System
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Dr Trippy's Sensorium A website dedicated to the study of the human sensorium and organisational behaviour
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