Wednesday, November 6, 2013
(10) Size Constancy
Size constancy is the tendency of our minds to perceive the size of a familiar object despite differences in their distance. The size of the image on the retina changes as the distance from the object to the observer changes,
If you observe the following image, you will see how the same man is shown twice (in the very back and towards the front on the right.)The smaller man in the front the same exact size as the man towards the back, he's now just shown at the same elevation as the man in the foreground. However, our visual system will perceive this image as it's meant to be and infer that the man towards the back is farther away, thus making him smaller in the photograph.
(7) Monocular Cue: Interposition
Interposition is the when an object partially blocks our view of another, causing us to perceive it to be closer to us.
The image displayed above shows two completely different shapes of different color. Because the blue oval is show to be overlapping the rectangle, our minds immediately assume that it is also closer to us. This is due to us registering the fact that we see the full shape of it rather than the rectangle.
(4) Proximity
Proximity is when the mind groups nearby figures together. We see things as one whole instead of separate things.
The above photo in reality is just a bunch of shaded dots. However, the law of proximity indicates that it is far more likely for us to identify this photo as four distinct shapes that end up forming a whole image which we would interpret as the paw of an animal. The reason we group these four shapes together is due to their similarity in shape, color, placement, etc.
The above photo in reality is just a bunch of shaded dots. However, the law of proximity indicates that it is far more likely for us to identify this photo as four distinct shapes that end up forming a whole image which we would interpret as the paw of an animal. The reason we group these four shapes together is due to their similarity in shape, color, placement, etc.
(1) Closure
to fill in gaps to create a complete, full object.
For example, the image at right contains no actual complete circles or triangles. However, the mind fills in the missing information to create familiar shapes and images. This causes us to perceive the following image as large, white triangle.
(12) Shape Constancy
Shape constancy is the tendency to perceive the shape of a rigid object as constant despite differences in the viewing angle. This means that when we see a door open, we see it as a rectangle in it's beginning stages of being closed. Then as it starts to move, the door actually appears to be trapezoidal, but our brain still tells us that it is rectangular.
This is a similar example to the door, but it is going to use a laptop. When it starts open, we perceive the screen to be rectangular, then as it gets to about a 45 degree angle, the screen appears to be trapezoidal because of the differing angles of the screen, but our brains still tell us that it is rectangular.
This is a similar example to the door, but it is going to use a laptop. When it starts open, we perceive the screen to be rectangular, then as it gets to about a 45 degree angle, the screen appears to be trapezoidal because of the differing angles of the screen, but our brains still tell us that it is rectangular.
As one can see, the first picture is much more noticeably a rectangle compared to the second picture. Because of depth perception, the rectangle in the second picture is more resembled to a trapezoid, but our brains take shortcuts and just tell us that it is a rectangle from start to finish.
(9) Motion Perception
Motion perception deals with anything that would cause our eyes to see motion. There are two different kinds:
Stroboscopic movement – the brain
perceives continuous movement in a rapid series of slightly varying images
Phi phenomenon – an illusion of
movement created when two adjacent stationary lights blink on and off in quick
succession, and we perceive a single light moving back and forth between them
In this example, we have stroboscopic motion captured in a picture. This picturing technique is called "blur" and it captures what we would see if we viewed the world in slow motion. Because of the stroboscopic movement in our eyes, we would actually see this segment of pictures as the ones below (which are still a little bit blurry, but it's better than nothing).
If this was in real life, we would perceive this as the kid in the white shirt is moving from the left to the right in a continuous motion.
(6) Binocular Cue
Binocular cues are depth cues, such as retinal disparity and convergence that
depends on the use of two eyes.
Left Eye Only Both Eyes Right Eye Only
In this example, we see what our different perceptions would be if we only saw things with our right or our left eye. Then to give reference, there is a picture of what the plant object thing would be if we looked at it straight on with both eyes. The left vs. right eye pictures are a little bit more dramatic than what we would actually see, but it is close enough for a good visual representation.
In this example, we see what our different perceptions would be if we only saw things with our right or our left eye. Then to give reference, there is a picture of what the plant object thing would be if we looked at it straight on with both eyes. The left vs. right eye pictures are a little bit more dramatic than what we would actually see, but it is close enough for a good visual representation.
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