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Collusion-Resilience in Transaction Fee Mechanism Design

Hao Chung, Tim Roughgarden, Elaine Shi

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Abstract

Users bid in a transaction fee mechanism (TFM) to get their transactions included and confirmed by a blockchain protocol. Roughgarden (EC'21) initiated the formal treatment of TFMs and proposed three requirements: user incentive compatibility (UIC), miner incentive compatibility (MIC), and a form of collusion-resilience called OCA-proofness. Ethereum's EIP-1559 mechanism satisfies all three properties simultaneously when there is no contention between transactions, but loses the UIC property when there are too many eligible transactions to fit in a single block. Chung and Shi (SODA'23) considered an alternative notion of collusion-resilience, called c-side-contract-proofness (c-SCP), and showed that, when there is contention between transactions, no TFM can satisfy UIC, MIC, and c-SCP for any c ≥ 1. OCA-proofness asserts that the users and a miner should not be able to "steal from the protocol." On the other hand, the c-SCP condition requires that a coalition of a miner and a subset of users should not be able to profit through strategic deviations (whether at the expense of the protocol or of the users outside the coalition).

Topics & Concepts

CollusionDatabase transactionMechanism (biology)Resilience (materials science)BusinessMechanism designTransaction costComputer securityComputer scienceIndustrial organizationMicroeconomicsEconomicsFinanceDatabaseMaterials sciencePhysicsQuantum mechanicsComposite materialScheduling and Optimization AlgorithmsSoftware Engineering ResearchManufacturing Process and Optimization
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