How ventriloquists trick us
Experiments with humans and monkeys find that the brain doesn’t need simultaneous visual and audio stimulation to locate the source of a sound.
Rather, visual feedback obtained from trying to find a sound with the eyes has a stronger effect than visual stimuli presented at the same time as the audio, according to the study.
The findings could help those with mild hearing loss learn to localize voices better, improving their ability to communicate in noisy environments, says Jennifer Groh, a professor of psychology and neuroscience at Duke University.
Locating where a sound is coming from is partially learned with the aid of vision. Researchers sought to learn more about how the brain locates the source of a sound when the source is unclear and there are a number of possible visual matches.
“Our study is related to ventriloquism, in which the visual image of a puppet’s mouth ‘captures’ the sound of the puppeteer’s voice,” Groh says. “It is thought that one reason this illusion occurs is because vision normally teaches the brain how to tell where sounds are coming from.
“We investigated how the brain knows which visual stimulus should capture the location of a sound, such as why it is the puppet’s mouth and not some other visual stimulus.”
‘Guess and check’
The study, published yesterday in PLOS ONE, tested two competing hypotheses. In one, the brain determines the location of a sound based on the simultaneous occurrence of audio and its visual source.
In the other, the brain uses a “guess and check” method. In this scenario, visual feedback sent to the brain after the eye focuses on a sound affects how the eye searches for that sound in the future, possibly through the brain’s reward-related circuitry.
In both paradigms, the visual stimulus—an LED—was displaced from the sound. Groh’s team then looked for evidence that the LED caused a persistent mislocation of the sound.
“Surprisingly, we found that visual feedback exerts the more powerful effect on altering localization of sounds,” Groh says. “This suggests that the active behavior of looking at the puppet during a ventriloquism performance plays a role in causing the shift in where you hear the voice.”
Participants in the study—11 humans and two rhesus monkeys—shifted their sight to a sound under different visual and audio scenarios.
In one scenario, called the “synchrony-only” task, a visual stimulus appeared at the same time as a sound but too briefly to provide feedback after an eye movement to that sound.
In another, the “feedback-only” task, the visual stimulus appeared during the execution of an eye movement to a sound, but was never on at the same time as the sound.
The study found that the “feedback-only task” exerted a much more powerful effect on the estimation of sound location, as measured with eye tracking, than did the other scenario. This suggests that those who have difficulty localizing sounds may benefit from practice involving eye movements.
On average, participants altered their eye movements in the direction of the lights’ location to a greater degree, about a quarter of the way, when the visual stimulus was presented as feedback than when it was presented at the same time as the sound, the study found.
“This is about the brain’s self-improvement skills,” said co-author Daniel Pages, a graduate student in psychology & neuroscience. “What we’re getting at is how the brain uses different types of information to improve how it does its job. In this case, it uses vision coupled with eye movements to improve hearing.”
“We were surprised at how important the eye movements were,” Groh says. “But finding sounds is really hard. Feedback about your performance is important for anything that is difficult, whether it is the B- you get on your homework or the error your eyes detect in localizing a sound.”
The National Eye Institute funded the study.
Source: Duke University
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