Decision-making trades off learned and perceived information.
Tal Nahari, Boaz Rozenberg, Yoni Pertzov, Eran Eldar
Abstract
Open AccessA fundamental question in cognitive science is how information from internal memory is combined with external sensory input when making decisions. We hypothesized that previously learned and currently perceived information trade off against each other, such that extracting information from one source reduces the gathering and usage of information from the other. To test this hypothesis, we designed a two-armed bandit task where each arm is composed of both learned and perceived elements. We monitored participants' gathering of perceptual information using eye tracking. Participants' choices and gaze deployment showed a trade-off between the impact of learned and perceived information. The more a participant utilized internally stored learned information, the less they gathered perceptual information, and vice versa. Modeling participants' information gathering indicated that the trade-off results from the faster gathering of learned information, which, when used, makes it less valuable to further invest effort in gathering additional perceptual information. Preliminary findings also suggested that an individual's tendency to primarily rely on one source of information is a stable individual trait. These findings reveal how humans balance between learning and perception in forming decisions.