Computing Perfect Bayesian Equilibria in Sequential Auctions with Verification
DOI:
https://doi.org/10.1609/aaai.v39i13.33550Abstract
We present an algorithm for computing pure-strategy epsilon-perfect Bayesian equilibria in sequential auctions with continuous action and value spaces. Importantly, our algorithm includes a verification phase that computes an upper bound on the utility loss of the found strategies. Prior work on equilibrium computation in auctions with verification has focussed on the single-round case, but the methods do not work for sequential auctions because of two main challenges: (1) there are infinitely many subgames, and (2) the setting has no optimal substructure as bidders' beliefs and best response strategies depend on the strategies of previous rounds. We make two contributions. First, we introduce a tailor-made game abstraction that discretizes the auction and augments the state space with the public beliefs, such that an approximate equilibrium can be computed via dynamic programming. Second, we prove a decomposition theorem to upper bound the utility loss of the computed equilibrium. This is essential because it is neither guaranteed that the auction has an equilibrium nor that any algorithm converges to it. We validate our algorithm on multiple settings with known equilibria and apply it to a new multi-round combinatorial auction.Downloads
Published
2025-04-11
How to Cite
Thoma, V., Bosshard, V., & Seuken, S. (2025). Computing Perfect Bayesian Equilibria in Sequential Auctions with Verification. Proceedings of the AAAI Conference on Artificial Intelligence, 39(13), 14158–14166. https://doi.org/10.1609/aaai.v39i13.33550
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Section
AAAI Technical Track on Game Theory and Economic Paradigms