Abstract
Influence maximization has found applications in a wide range of real-world problems, for instance, viral marketing of products in an online social network, and information propagation of valuable information such as job vacancy advertisements and health-related information. While existing algorithmic techniques usually aim at maximizing the total number of people influenced, the population often comprises several socially salient groups, e.g., based on gender or race. As a result, these techniques could lead to disparity across different groups in receiving important information. Furthermore, in many of these applications, the spread of influence is time-critical, i.e., it is only beneficial to be influenced before a time deadline. As we show in this paper, the time-criticality of the information could further exacerbate the disparity of influence across groups. This disparity, introduced by algorithms aimed at maximizing total influence, could have far-reaching consequences, impacting people's prosperity and putting minority groups at a big disadvantage. In this work, we propose a notion of group fairness in time-critical influence maximization. We introduce surrogate objective functions to solve the influence maximization problem under fairness considerations. By exploiting the submodularity structure of our objectives, we provide computationally efficient algorithms with guarantees that are effective in enforcing fairness during the propagation process. We demonstrate the effectiveness of our approach through synthetic and real-world experiments.
Highlights
The problem of Influence Maximization has been widely studied due to its application in multiple domains such as viral marketing [1], social recommendations [2], propagation of information related to jobs, financial opportunities or public health programs [3], [4]
We attempt to mitigate such unfairness in time-critical influence maximization (TCIM), and we focus on two settings: (i) where the budget is fixed and the goal is to find a seed set which maximizes the time-critical influence, we call this as TIME-CRITICAL INFLUENCE MAXIMIZATION (TCIM)-BUDGET problem, and (ii) where a certain quota or fraction of the population should be influenced under the prescribed time deadline, and the goal is to find such a seed set of minimal size, we call this as TCIM-COVER problem
We considered the important problem of time-critical influence maximization (TCIM) under (i) budget constraint (TCIM-BUDGET) and (ii) coverage constraint (TCIM-COVER)
Summary
The problem of Influence Maximization has been widely studied due to its application in multiple domains such as viral marketing [1], social recommendations [2], propagation of information related to jobs, financial opportunities or public health programs [3], [4]. The idea is to identify a set of initial sources (i.e., seed nodes) in a social network who can influence other people (e.g., by propagating key information), and traditionally the goal has been to maximize the total number of people influenced in the process (e.g., who received the information being propagated) [6], [9], [10]. We formally introduce a well-studied influence propagation model and specify the notion of time-critical influence that we consider in this paper. We will consider IC model and our results can be extended to the LT model
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