Online Policies for Efficient Volunteer Crowdsourcing
成果类型:
Article
署名作者:
Manshadi, Vahideh; Rodilitz, Scott
署名单位:
Yale University; University of California System; University of California Los Angeles
刊物名称:
MANAGEMENT SCIENCE
ISSN/ISSBN:
0025-1909
DOI:
10.1287/mnsc.2021.4220
发表日期:
2022
页码:
6572-6590
关键词:
nonprofit crowdsourcing
volunteer management
notification fatigue
Online platforms
Competitive analysis
摘要:
Nonprofit crowdsourcing platforms such as food recovery organizations rely on volunteers to perform time-sensitive tasks. Thus, their success crucially depends on efficient volunteer utilization and engagement. To encourage volunteers to complete a task, platforms use nudging mechanisms to notify a subset of volunteers with the hope that at least one of them responds positively. However, because excessive notifications may reduce volunteer engagement, the platform faces a tradeoff between notifying more volunteers for the current task and saving them for future ones. Motivated by these applications, we introduce the online volunteer notification problem, a generalization of online stochastic bipartite matching where tasks arrive following a known time-varying distribution over task types. Upon arrival of a task, the platform notifies a subset of volunteers with the objective of minimizing the number of missed tasks. To capture each volunteer's adverse reaction to excessive notifications, we assume that a notification triggers a random period of inactivity, during which she will ignore all notifications. However, if a volunteer is active and notified, she will perform the task with a given pair-specific match probability that captures her preference for the task. We develop an online randomized policy that achieves a constant-factor guarantee close to the upper bound we establish for the performance of any online policy. Our policy and hardness results are parameterized by the minimum discrete hazard rate of the interactivity time distribution. The design of our policy relies on sparsifying an ex ante feasible solution by solving a sequence of dynamic programs. Furthermore, in collaboration with Food Rescue U.S., a volunteer-based food recovery platform, we demonstrate the effectiveness of our policy by testing it on the platform's data from various locations across the United States.