Illusions Tagged ‘Motion’
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© 2008 Shapiro & Knight
In the perpetual collisions illusion, the pink and the yellow columns seem always to be headed towards (or away from) each other, but they never meet (and they never grow further apart). Actually, the colored fields are completely stationary; an appearance of motion is generated by the spinning black and white diamonds located alongside the columns. Click on the button to add diagonal bars and remove the edges from opposing diamonds. Notice that the information at the edges makes the colored fields move diagonally, yet when the bars are not there and all the edges are visible, the fields move horizontally.
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Tags: Flicker, Motion | Presented Sunday, May 11th, 2008 |
2007 Third prize
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(© 2007 Arthur Shapiro and Emily Knight)
Click on the big button to toggle between a blurred version of the display and an unblurred version. When the display is blurred, the motion is dramatic; when the display is not blurred, there is only minimal motion. The effect can also be seen with a defocused lens. Blur eliminates high-spatial frequencies. It does not add information to the image. Why, therefore, does the removal of high-spatial frequencies add motion to the display? The buttons and levers allow control over the many of the parameters in the display.
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Tags: 3rd prize, Blur, Motion | Presented Saturday, May 12th, 2007 |
This movie requires Flash Player 9
© 2007 Thorsten Hansen, Kai Hamburger, & Karl R. Gegenfurtner
Please relax and look at the colorful brains: aren’t they rotating and bouncing?! They are, but only in your head.
What’s going on? Some regions in the brains are darker, some lighter than the background. The perceived location of the separation between light and dark regions changes as the background is modulated, causing each brain to jiggle and bounce. In some regions these illusory motions of neighboring brains are coherent and are grouped together to give rise to an even stronger illusion.
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Tags: Motion | Presented Saturday, May 12th, 2007 |
In the illusion , a small pink object can be seen moving back and forth in front of three types of background. When observers track the pink target moving back and forth in front of a background consisting of dynamic noise, they report the percept of a drifting background. The direction of this drift is opposite to that of the small pink object, even though the background in fact does not move into a particular direction. This illusory motion arises for a static gray Gaussian background, but is actually much stronger when the background is dynamic random noise. However, the illusion does not occur when the background consists of static random noise.
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Tags: Background, Motion | Presented Saturday, May 12th, 2007 |
This movie requires Flash Player 9
(© 2007 Emily Knight and Arthur Shapiro)
The red button adds/removes half of the background grating. The swimmers bob up and down when they are in front of the grating but not when they are in front of a uniform background
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Tags: Contrast, Gradient, Motion | Presented Saturday, May 12th, 2007 |
Michael Pickard
Sunderland University, UK
Breeze in the Trees
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Tags: Motion | Presented Saturday, May 12th, 2007 |
2006 First prize
An object (e.g. airplane) is turning on a surround (greenhouse), which is swaying back and forth. Observe the rotation of the object. Is it turning smoothly all the time? Or does it “freeze” from time to time? Convince yourself by covering the swaying surround that the object is really turning continuously. If the object is swaying back and forth and the surround is turning continuously we do not perceive a slow-down of the surround. Assuming a stable surround, our visual system probably uses the surround as a reference to measure motion of the included objects.
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See an interactive version of the The Freezing Rotation Illusion at Michael Bach’s “Optical Illusions & Visual Phenomena” website
The Freezing Rotation IllusionMax R. DürstelerNature Precedings 2007. 371.1
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Tags: 1st prize, Motion | Presented Monday, May 8th, 2006 |
2006 Second prize
Dartmouth College, USA
Fixate the black fixation point on the far left side of the image. Note that the figure appears to move steadily away from the fixation point, even though it is in fact only moving up and down.
Fixate the central fixation spot. Notice that the two balls on the left and right appear to be bouncing toward fixation, even though they are in fact remaining at a constant distance from the fixation point. Best viewed on a large screen.
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The infinite regress illusion reveals faulty integration of local and global motion signals Peter U. Tse & Po-Jang Hsieh Vision Research. 2006. 46:3881-5
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Tags: 2nd prize, Motion | Presented Monday, May 8th, 2006 |
When a gradient stimulus, whose luminance contrast ranges gradually from white on one side to black on the other, is made to disappear all at once so that only the uniform white background remains visible, illusory motion is perceived. This motion lasts ~700ms, as if the stimulus moves from the low to the high luminance contrast side. This gradient-offset induced motion does not occur for equiluminant color-defined gradient offsets, suggesting that it relies mainly on the magnocellular pathway. We hypothesize that this illusion is caused by the difference of decay rates within the gradient afterimage.
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Illusory motion induced by the offset of stationary luminance-defined gradients Po-Jang Hsieh, Gideon P. Caplovitz & Peter U. Tse Vision Research. 2006. 46:970-8
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Tags: Afterimage, Gradient, Motion | Presented Monday, May 8th, 2006 |
(© 2006 Evan Palmer & Phillip Kellman)
The Occlusion Velocity Illusion shown in the video demonstrates that when one part of a moving object goes out of view before another part, the two pieces appear misaligned, even though they are not (top row). This illusion can be counteracted by misaligning one portion of the rod in the direction opposite to the perceived misalignment (middle row). If observers are instructed to attend to the rod’s shape only within the blue box, they are still subject to the illusion (bottom row). This final observation indicates that the illusion is obligatory and not under volitional control.
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Tags: Motion | Presented Monday, May 8th, 2006 |
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