Learning in the Repeated Secretary Problem
- Daniel G. Goldstein ,
- R. Preston McAfee ,
- Siddharth Suri ,
- James Wright
ACM Economics & Computation 2017 (EC'17) |
In the classical secretary problem, one attempts to find the maximum of an unknown and unlearnable distribution through sequential search. In many real-world searches, however, distributions are not entirely unknown and can be learned through experience. To investigate learning in such a repeated secretary problem we conduct a large-scale behavioral experiment in which people search repeatedly from fixed distributions. In contrast to prior investigations that find no evidence for learning in the classical scenario, in the repeated setting we observe substantial learning resulting in near-optimal stopping behavior. We conduct a Bayesian comparison of multiple behavioral models which shows that participants’ behavior is best described by a class of threshold-based models that contains the theoretically optimal strategy. In fact, fitting such a thresholdbased model to data reveals players’ estimated thresholds to be surprisingly close to the optimal thresholds after only a small number of games.