Illusions reveal the hidden workings of the brain

Illusions reveal the hidden workings of the brain

From swirling pinwheels to hidden faces, the most effective optical illusions have the ability to trick us into seeing things.

And the basis for many of these illusions is the processing happening inside our brains. 

In an article for The Conversation,Kim Ransley, a PhD student, and Dr Alex Hocombe, an Associate Professor, both from the School of Psychology at the University of Sydney reveal the workings of the brain in response to three illusions.

Scroll down for video 

From swirling pinwheels to hidden faces, the most effective optical illusions have the ability to trick us into seeing things. And the basis for many of these illusions is the processing happening inside our brains 

From swirling pinwheels to hidden faces, the most effective optical illusions have the ability to trick us into seeing things. And the basis for many of these illusions is the processing happening inside our brains 

OPTICAL ILLUSIONS 

Optical illusions arrange a series of patterns, images and colors or play with the way an object is lit in order to trick our brains into thinking something is there â€" when it is not.

When light hits our retina, it takes about one-tenth of a second for our brain to translate that signal into perception, reports Discovery News.

Evolutionary neurobiologist Mark Changizi says this neural delay makes our brains generate images of what it thinks the world will look like in one-tenth of a second. 

Visual illusions show us that we do not have direct access to reality. 

They can also provide an inkling of the mental processing that delivers our experience of the viewable world.

Indeed, it is the processing happening inside our brains that is the basis for many illusions. 

Rather than delivering information from our eyes in nearly raw form as a camera would, the brain tries to determine what is actually out there â€" what are the shapes and the objects in the scene?

When the information entering the eye is ambiguous, the brain must make educated guesses. The three displays below demonstrate this in rather delightful ways.

The Illusion of Sex

In this illusion by Richard Russell, the same face appears to be female when the skin tone is made lighter (left image) and male when the skin tone is made darker (right image).

The illusion works because changing the skin tone affects the face's contrast â€" the difference between the darkest parts of the face (lips and eyes) and lightest parts (the skin).

In this illusion by Richard Russell, the same face appears to be female when the skin tone is made lighter (left image) and male when the skin tone is made darker (right image)

In this illusion by Richard Russell, the same face appears to be female when the skin tone is made lighter (left image) and male when the skin tone is made darker (right image)

THE ILLUSION OF SEX 

In this illusion, the same face appears to be female when the skin tone is made lighter and male when the skin tone is made darker.

The illusion works because changing the skin tone affects the face's contrast â€" the difference between the darkest parts of the face (lips and eyes) and lightest parts (the skin).

Few would regard facial contrast as a defining feature of either sex, but in fact, contrast is on average higher in females than males.

Even without consciously knowing it, our brains are attuned to the difference in contrast between the sexes, and so contrast is one cue the brain uses to determine gender. 

When other cues are removed, contrast can be the deciding factor.

Few would regard facial contrast as a defining feature of either sex, but in fact, contrast is on average higher in females than males.

Even without consciously knowing it, our brains are attuned to the difference in contrast between the sexes, and so contrast is one cue the brain uses to determine gender. 

When other cues are removed, contrast can be the deciding factor.

Perhaps the most interesting thing about the illusion is that the contrast doesn't simply help us work out the sex of the face - it provides an experience of ' seeing' a face that is male or female. 

The use of the contrast cue is done by unconscious processes.

The image in our mind's eye has incorporated information that we already hold, and uses this to resolve ambiguity in the image.

The Coffer Illusion

The Coffer Illusion may initially appear as a series of sunken rectangular door panels, but after a few seconds, your brain's representation of the image may 'flip' to give you the experience of 16 circles.

People have been fascinated by such ambiguous figures since at least the time of the ancient Romans.

The Coffer Illusion plays on the fact that the visual brain is heavily geared towards identifying objects. 

The Coffer Illusion may initially appear as a series of sunken rectangular door panels, but after a few seconds, your brain's representation of the image may 'flip' to give you the experience of 16 circles

The Coffer Illusion may initially appear as a series of sunken rectangular door panels, but after a few seconds, your brain's representation of the image may 'flip' to give you the experience of 16 circles

'Pixels' are grouped to form edges and contours, shapes, and finally objects.

Sometimes, as in the Coffer Illusion, there is no 'right' grouping because the image is inherently ambiguous. 

Two different groupings make sense â€" a single set of horizontal lines can either form a circle, or be the intersection between two rectangles.

For most people, the grouping into rectangles initially dominates. 

This may be because rectangles (including the ones we see in door panels) are often more common than circles in our daily environment, and so the brain favours the grouping that deliv ers rectangular shapes.

Mask of Love

In Gianni Sarcone's Mask of Love, a Venetian mask can be seen to contain either a single face or the faces of two people kissing.

The illusion operates in a similar way to the Coffer illusion â€" the contours in the image can be grouped in two different ways, leaving the brain uncertain about which to choose.

In Gianni Sarcone's Mask of Love, a Venetian mask can be seen to contain either a single face or the faces of two people kissing. The contours in the image can be grouped in two different ways, leaving the brain uncertain about which to choose

In Gianni Sarcone's Mask of Love, a Venetian mask can be seen to contain either a single face or the faces of two people kissing. The contours in the image can be grouped in two different ways, leaving the brain uncertain about which to choose

The difference with this illusion is that, at least for some people, neither grouping tends to dominate. 

The image appears to flip reasonably freely between the two plausible alternatives.

Flipping is an interesting way for the visual brain to deal with ambiguity. 

Other parts of the brain have mechanisms that average ambiguous information, or simply choose the most likely representation and ignore all alternatives.

Flipping has the advantage of providing coherent information about what the image could be, which might be useful to know in w orking out how to interact with the world.

Together, these three illusions demonstrate that visual processing is highly geared towards identifying what an object is.

The representation in our mind's eye is designed to be functional, so rather than delivering a mess of pixels, we have elaborate visual experiences of circles, rectangles, faces, and even the gender of faces.

The Conversation

 

قالب وردپرس

Subscribe to receive free email updates:

0 Response to "Illusions reveal the hidden workings of the brain"

Posting Komentar