2014年1月17日星期五

Image perception in the blink of an eye

Image perception in the blink of an eye

Jan. 16, 2014 — Imagine seeing a dozen pictures flash by in a fraction of a second. You might think it would be impossible to identify any images you see for such a short time. However, a team of neuroscientists from MIT has found that the human brain can process entire images that the eye sees for as little as 13 milliseconds -- the first evidence of such rapid processing speed.


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That speed is far faster than the 100 milliseconds suggested by previous studies. In the new study, which appears in the journal Attention, Perception, and Psychophysics, researchers asked subjects to look for a particular type of image, such as "picnic" or "smiling couple," as they viewed a series of six or 12 images, each presented for between 13 and 80 milliseconds.

"The fact that you can do that at these high speeds indicates to us that what vision does is find concepts. That's what the brain is doing all day long -- trying to understand what we're looking at," says Mary Potter, an MIT professor of brain and cognitive sciences and senior author of the study.

This rapid-fire processing may help direct the eyes, which shift their gaze three times per second, to their next target, Potter says. "The job of the eyes is not only to get the information into the brain, but to allow the brain to think about it rapidly enough to know what you should look at next. So in general we're calibrating our eyes so they move around just as often as possible consistent with understanding what we're seeing," she says.

Other authors of the paper are former MIT postdoc Brad Wyble, now at Pennsylvania State University, postdoc Carl Hagmann, and research assistant Emily McCourt.

Rapid identification

After visual input hits the retina, the information flows into the brain, where information such as shape, color, and orientation is processed. In previous studies, Potter has shown that the human brain can correctly identify images seen for as little as 100 milliseconds. In the new study, she and her colleagues decided to gradually increase the speeds until they reached a point where subjects' answers were no better than if they were guessing. All images were new to the viewers.

The researchers expected they might see a dramatic decline in performance around 50 milliseconds, because other studies have suggested that it takes at least 50 milliseconds for visual information to flow from the retina to the "top" of the visual processing chain in the brain and then back down again for further processing by so-called "re-entrant loops." These processing loops were believed necessary to confirm identification of a particular scene or object.

However, the MIT team found that although overall performance declined, subjects continued to perform better than chance as the researchers dropped the image exposure time from 80 milliseconds to 53 milliseconds, then 40 milliseconds, then 27, and finally 13 -- the fastest possible rate with the computer monitor being used.

"This didn't really fit with the scientific literature we were familiar with, or with some common assumptions my colleagues and I have had for what you can see," Potter says.

Potter believes one reason for the subjects' better performance in this study may be that they were able to practice fast detection as the images were presented progressively faster, even though each image was unfamiliar. The subjects also received feedback on their performance after each trial, allowing them to adapt to this incredibly fast presentation. At the highest rate, subjects were seeing new images more than 20 times as fast as vision typically absorbs information.

"We think that under these conditions we begin to show more evidence of knowledge than in previous experiments where people hadn't really been expecting to find success, and didn't look very hard for it," Potter says.

The findings are consistent with a 2001 study from researchers at the University of Parma and the University of St. Andrews, who found that neurons in the brains of macaque monkeys that respond to specific types of image, such as faces, could be activated even when the target images were each presented for only 14 milliseconds in a rapid sequence.

"That was the only background that suggested maybe 14 milliseconds was sufficient to get something meaningful into the brain," Potter says.

One-way flow

The study offers evidence that "feedforward processing" -- the flow of information in only one direction, from retina through visual processing centers in the brain -- is enough for the brain to identify concepts without having to do any further feedback processing.

It also suggests that while the images are seen for only 13 milliseconds before the next image appears, part of the brain continues to process those images for longer than that, Potter says, because in some cases subjects weren't asked whether a specified image was present until after they had seen the sequence.

"If images were wiped out after 13 milliseconds, people would never be able to respond positively after the sequence. There has to be something in the brain that has maintained that information at least that long," she says.

This ability to identify images seen so briefly may help the brain as it decides where to focus the eyes, which dart from point to point in brief movements called fixations about three times per second, Potter says. Deciding where to move the eyes can take 100 to 140 milliseconds, so very high-speed understanding must occur before that.

The researchers are now investigating how long visual information presented so briefly can be held in the brain. They are also scanning subjects' brains with a magnetoencephalography (MEG) scanner during the task to see what brain regions are active when a person successfully completes the identification task.



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