Researchers at the University of California in Los Angeles (UCLA) played brief bursts of sound and triggered flashes of light, in various combinations, and asked participants to identify where they originated.
A total of 384 people, most between the ages of 18 and 22, participated. They typically were asked to identify about 525 stimuli during a 45-minute test.
In the study, subjects were asked to sit facing a black screen, behind which were five loudspeakers. Mounted on the ceiling above was a projector capable of flashing bursts of light onto the screen, at the same spots where the speakers were located.
The researchers conducted the study in part because there had never been a comprehensive research to examine whether humans' "spatial localisation" ability - whether we can immediately and accurately perceive where an object is located - is as well-honed as we believe it to be.
"We didn't expect these spatial errors; they're very counterintuitive. Spatial localisation is one of the most basic tasks the brain performs, and the brain does it constantly," said Ladan Shams, a professor at UCLA.
"Maybe evolution has favoured high precision in the centre of the visual field. We are really good at localising and discriminating at high acuity in the centre of our vision, and that comes with the cost of making more errors at outer area," Shams said.
The participants answered much more accurately when the flashes and noise were played simultaneously at the same location.
"The brain is wired to use information from multiple senses to correct other senses. The saying is true - 'If you want to hear better, put your glasses on'," Shams said.
The study was published in the journal PLOS Computational Biology.