Probabilistic Mechanism Design in Diffusion Auctions
摘要
A diffusion auction refers to a selling process conducted over a social network, where each participant submits a bid and may invite other potential buyers to join the auction. Although various mechanisms have been proposed, none of them can simultaneously achieve incentive compatibility, non-negative revenue, and approximate efficiency with a constant approximation bound. In this paper, we propose the Probabilistic Diffusion Mechanism (PDM), a novel mechanism tailored for path graphs, which satisfies all three desired properties. We further extend PDM to general network structures through a map , resulting in the -PDM mechanism, which preserves the key properties of the original design. Beyond these, when satisfies properties such as breadth-first order, -PDM also ensures Sybil-proofness and provides approximate revenue. Furthermore, to address buyer collusion, we introduce a modified version of the mechanism that balances collusion-proofness with revenue approximation. Finally, we extend the design to multi-unit diffusion auctions -- a more challenging setting -- and propose a simple yet effective mechanism, Multi-Unit PDM (MUPDM), that achieves approximate efficiency while maintaining IC. Moreover, we design Sybil-Proof MUPDM (SP-MUPDM) to resist Sybil attacks in the multi-item scenario.
引用
@article{arxiv.2605.17221,
title = {Probabilistic Mechanism Design in Diffusion Auctions},
author = {Xinlun Zhang and Zhechen Li and Yongzhi Cao and Yu Huang and Hanpin Wang},
journal= {arXiv preprint arXiv:2605.17221},
year = {2026}
}