Human visual acuity declines rapidly at the edge of the visual field, where the resolution becomes poorer. Objects in the periphery therefore appear blurred and indistinct.
Does that also apply to vital information, such as potentially hostile actions by others? To find out, Laura Fademrecht placed subjects in a virtual environment.
During the experiment, the subjects sat in front of a three-metre-high curved panoramic screen covering a visual field of 230 degrees. Thanks to the oversized screen, the visual field was as large as in real life, and the subjects had the feeling of actually being present in the scene.
Kicking, Waving, Shaking Hands
The subjects looked straight ahead while avatars in the form of life-size stick figures performed various actions at the edge of their visual field. The researchers also carried out measurements to make sure the subjects’ gaze was directed straight ahead and did not drift to the side.
Afterward, the subjects were asked if the action was positive or negative and exactly what action was performed. The stick figures’ repertoire included punching, slapping and kicking, as well as waving, shaking hands and hugging gestures.
As a control, the scientists also showed animated stick figures carrying out utterly meaningless movements. They did this by swapping the movements of the arms and legs: the avatars’ arms performed leg movements and vice versa. This resulted in similar kinetics, but carried no recognizable meaning.
Movement Recognition Is Independent From Line of Sight
The participants were able to recognize actions occurring at 45 degrees from the straight-ahead position, i.e. two to three hand-breadths from the nose, at the same speed as actions occurring directly ahead.
The good recognition performance was not due to the motion information. The researchers were able to rule this out in other experiments. The subjects even recognized static images of the avatars better than other motionless objects such as simple geometric shapes.
“This study shows that we perceive human actions in the visual periphery better than was previously thought,” Laura Fademrecht concludes.
She suspects that evolutionary adaptation lies at the heart of the subjects’ good performance.
“Recognizing the actions of other people from the corner of our eye may be important because it enables us to determine whether an approaching individual has good or bad intentions.”