Packing returning secretaries

Hoefer, Martin; Wilhelmi, Lisa

doi:10.1002/net.22000

Cited by 2 publications

(1 citation statement)

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“…He gave an optimal threshold-based strategy for accepting the best candidate and computed the success probability for k = 2, as well as giving upper bounds for the matroid secretary version of this problem. Hoefer and Wilhelmi [2018] extended these results to other packing domains. Petruccelli [1981] considered the case when the interviewer is able to recall some candidate from the past with some probability p > 0.…”

Section: Related Workmentioning

confidence: 54%

How to Hire Secretaries with Stochastic Departures

Kesselheim,

Psomas,

Vardi

2019

Preprint

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We study a generalization of the secretary problem, where decisions do not have to be made immediately upon candidates' arrivals. After arriving, each candidate stays in the system for some (random) amount of time and then leaves, whereupon the algorithm has to decide irrevocably whether to select this candidate or not. The goal is to maximize the probability of selecting the best candidate overall. We assume that the arrival and waiting times are drawn from known distributions.Our first main result is a characterization of the optimal policy for this setting. We show that when deciding whether to select a candidate it suffices to know only the time and the number of candidates that have arrived so far. Furthermore, the policy is monotone non-decreasing in the number of candidates seen so far, and, under certain natural conditions, monotone nonincreasing in the time. Our second main result is proving that when the number of candidates is large, a single threshold policy is almost optimal.

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Section: Related Workmentioning

confidence: 54%

How to Hire Secretaries with Stochastic Departures

Kesselheim,

Psomas,

Vardi

2019

Preprint

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Technical Note—On Hiring Secretaries with Stochastic Departures

Keßelheim

Psomas

Vardi

2024

Operations Research

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The paper studies generalization of the secretary problem, where decisions do not have to be made immediately upon applicants’ arrivals. After arriving, each applicant stays in the system for some (random) amount of time and then leaves, whereupon the algorithm has to decide irrevocably whether to select this applicant or not. The arrival and waiting times are drawn from known distributions, and the decision maker’s goal is to maximize the probability of selecting the best applicant overall. The paper characterizes the optimal policy for this setting, showing that when deciding whether to select an applicant, it suffices to know only the time and the number of applicants that have arrived so far. Furthermore, the policy is monotone nondecreasing in the number of applicants seen so far, and, under certain natural conditions, monotone nonincreasing in time. Furthermore, when the number of applicants is large, a single threshold policy is almost optimal.

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Packing returning secretaries

Cited by 2 publications

References 24 publications

How to Hire Secretaries with Stochastic Departures

How to Hire Secretaries with Stochastic Departures

Technical Note—On Hiring Secretaries with Stochastic Departures

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