Abstract
The survival of human organisms depends on our ability to solve complex tasks in the face of limited cognitive resources. However, little is known about the factors that drive the complexity of those tasks. Here, building on insights from computational complexity theory, we quantify the computational hardness of cognitive tasks using a set of task-independent metrics related to the computational resource requirements of individual instances of a task. We then examine the relation between those metrics and human behavior and find that they predict both time spent on a task as well as accuracy in three canonical cognitive tasks. Our findings demonstrate that performance in cognitive tasks can be predicted based on generic metrics of their inherent computational hardness.
Teaser The ability of humans to solve cognitive tasks is affected by generic mathematical properties of problems related to their computational complexity.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Revised introduction and discussion. Results, methods and figures have some minor changes.