Vision scientists have long assumed that humans need to carefully
consider multiple details before they can judge if a person or object is
A new research from the University of
California, Berkeley has revealed that the human brain takes less than a second to tell between
reality and fantasy.
‘Humans are visually wired to speedily take in information and make a snap judgment between reality and fantasy.’
The findings, published in the November issue of the journal Nature Communications
, show that humans are visually wired to speedily take in information and make a snap judgment about what's real.
UC Berkeley scientists have discovered a visual mechanism they call
"ensemble lifelikeness perception," which determines how we perceive
groups of objects and people in real and virtual or artificial worlds.
"This unique visual mechanism allows us to perceive what's really
alive and what's simulated in just 250 milliseconds," said study lead
author Allison Yamanashi Leib, a postdoctoral scholar in psychology at
UC Berkeley. "It also guides us to determine the overall level of
activity in a scene."
"But our study shows that participants made animacy decisions
without conscious deliberation, and that they agreed on what was
lifelike and what was not," said study senior author David Whitney, a UC
Berkeley psychology professor. "It is surprising that, even without
talking about it or deliberating about it together, we immediately share
in our impressions of lifelikeness."
Using ensemble perception, study participants could also make snap
judgments about the liveliness of groups of objects or people or entire
scenes, without focusing on all the individual details, Whitney said.
"In real life, tourists, shoppers and partiers all use visual cues
processed through ensemble perception to gauge where the action is at,"
Yamanashi Leib said.
Moreover, if we did not possess the ability to speedily determine
lifelikeness, our world would be very confusing, with every person,
animal or object we see appearing to be equally alive, Whitney said.
For the study, researchers conducted 12 separate experiments on a
total of 68 healthy adults with normal vision. In the majority of
trials, participants viewed up to a dozen images of random people,
animals and objects including an ice cream sundae, a guinea pig wearing a
shirt, a hockey player, a statue of a wooly mammoth, a toy car carrying
toy passengers, a caterpillar and more.
Participants quickly viewed groups of images, then rated them on a
scale of one to 10 according to their average lifelikeness. Participants
accurately assessed the average lifelikeness of the groups, even those
displayed for less than 250 milliseconds.
In another experiment to test participants' memory for details,
researchers flashed images, then showed them ones that participants had
seen as well as ones they had not. The results indicated that while
participants had forgotten a lot of details, their "ensemble perception"
of what had been lifelike remained sharp.
"This suggests that the visual system favors abstract global
impressions such as lifelikeness at the expense of the fine details,"
Whitney said. "We perceive the forest, and how alive it is, but not the