English

Sequential Information Design: Markov Persuasion Process and Its Efficient Reinforcement Learning

Artificial Intelligence 2022-02-23 v1 Computer Science and Game Theory Machine Learning Theoretical Economics

Abstract

In today's economy, it becomes important for Internet platforms to consider the sequential information design problem to align its long term interest with incentives of the gig service providers. This paper proposes a novel model of sequential information design, namely the Markov persuasion processes (MPPs), where a sender, with informational advantage, seeks to persuade a stream of myopic receivers to take actions that maximizes the sender's cumulative utilities in a finite horizon Markovian environment with varying prior and utility functions. Planning in MPPs thus faces the unique challenge in finding a signaling policy that is simultaneously persuasive to the myopic receivers and inducing the optimal long-term cumulative utilities of the sender. Nevertheless, in the population level where the model is known, it turns out that we can efficiently determine the optimal (resp. ϵ\epsilon-optimal) policy with finite (resp. infinite) states and outcomes, through a modified formulation of the Bellman equation. Our main technical contribution is to study the MPP under the online reinforcement learning (RL) setting, where the goal is to learn the optimal signaling policy by interacting with with the underlying MPP, without the knowledge of the sender's utility functions, prior distributions, and the Markov transition kernels. We design a provably efficient no-regret learning algorithm, the Optimism-Pessimism Principle for Persuasion Process (OP4), which features a novel combination of both optimism and pessimism principles. Our algorithm enjoys sample efficiency by achieving a sublinear T\sqrt{T}-regret upper bound. Furthermore, both our algorithm and theory can be applied to MPPs with large space of outcomes and states via function approximation, and we showcase such a success under the linear setting.

Keywords

Cite

@article{arxiv.2202.10678,
  title  = {Sequential Information Design: Markov Persuasion Process and Its Efficient Reinforcement Learning},
  author = {Jibang Wu and Zixuan Zhang and Zhe Feng and Zhaoran Wang and Zhuoran Yang and Michael I. Jordan and Haifeng Xu},
  journal= {arXiv preprint arXiv:2202.10678},
  year   = {2022}
}
R2 v1 2026-06-24T09:49:11.169Z