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Near-Optimal Reviewer Splitting in Two-Phase Paper Reviewing and Conference Experiment Design

Authors :
Jecmen, Steven
Zhang, Hanrui
Liu, Ryan
Fang, Fei
Conitzer, Vincent
Shah, Nihar B.
Jecmen, Steven
Zhang, Hanrui
Liu, Ryan
Fang, Fei
Conitzer, Vincent
Shah, Nihar B.
Publication Year :
2021

Abstract

Many scientific conferences employ a two-phase paper review process, where some papers are assigned additional reviewers after the initial reviews are submitted. Many conferences also design and run experiments on their paper review process, where some papers are assigned reviewers who provide reviews under an experimental condition. In this paper, we consider the question: how should reviewers be divided between phases or conditions in order to maximize total assignment similarity? We make several contributions towards answering this question. First, we prove that when the set of papers requiring additional review is unknown, a simplified variant of this problem is NP-hard. Second, we empirically show that across several datasets pertaining to real conference data, dividing reviewers between phases/conditions uniformly at random allows an assignment that is nearly as good as the oracle optimal assignment. This uniformly random choice is practical for both the two-phase and conference experiment design settings. Third, we provide explanations of this phenomenon by providing theoretical bounds on the suboptimality of this random strategy under certain natural conditions. From these easily-interpretable conditions, we provide actionable insights to conference program chairs about whether a random reviewer split is suitable for their conference.

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1269570097
Document Type :
Electronic Resource