存在安全问题的区块链操作

Jiahao He, Guangyuan Zhang, Jiheng Zhang, Rachel Q. Zhang
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引用次数: 1

摘要

问题定义:区块链支付系统,如比特币或以太坊,验证电子交易并将其存储在没有中央权威的区块链中。拥有计算能力的矿工根据预先设定的协议(称为哈希或挖矿)竞争创建区块的权利,并作为回报,获得提交交易的用户支付的费用。由于去中心化引起的安全问题,在随后将一些额外的块扩展到包含它的块之后,交易才被确认。这种确认延迟在矿工和用户之间引入了复杂的相互作用。本文给出了近似系统均衡,并研究了区块链的优化设计。方法/结果:哈希过程本质上是基于基于费用的优先级原则的批处理服务的单服务器队列,确认延迟增加了平衡行为和最佳设计的复杂性。我们分析了矿工的参与决策如何与用户的参与和费用决策相互作用,并确定了当目标是最大化吞吐量或社会福利时的最佳设计。我们验证了我们的模型,并使用比特币的数据进行了数值研究。管理意义:通过纳入安全问题,我们揭示了用户和矿工之间的决策相互依赖,以及在实践中非零入场费的驱动程序。我们表明,矿工和用户最终可能会陷入恶性循环或良性循环,这取决于初始系统状态。通过将入场费作为一个设计参数,我们能够确定,简单地以最大容量运行区块链系统和尽可能小的块大小是最优的。资助:本研究得到香港研究资助局资助[资助项16200019、16200617、16200821、16208120及16214121]。补充材料:电子伴侣可在https://doi.org/10.1287/msom.2023.1197上获得。
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Blockchain Operations in the Presence of Security Concerns
Problem definition: A blockchain payment system, such as Bitcoin or Ethereum, validates electronic transactions and stores them in a chain of blocks without a central authority. Miners with computing power compete for the rights to create blocks according to a preset protocol, referred to as hashing or mining, and, in return, earn fees paid by users who submit transactions. Because of security concerns caused by decentralization, a transaction is confirmed after a number of additional blocks are subsequently extended to the block containing it. This confirmation latency introduces an intricate interplay between miners and users. This paper provides approximate system equilibria and studies optimal designs of a blockchain. Methodology/results: The hashing process is essentially a single-server queue with batch services based on a fee-based priority discipline, and confirmation latency adds complexity to the equilibrium behavior and optimal design. We analyze how miners’ participation decisions interact with users’ participation and fee decisions and identify optimal designs when the goal is to maximize the throughput or social welfare. We validate our model and conduct numerical studies using data from Bitcoin. Managerial implications: By incorporating security issues, we uncover the interdependence of the decisions between users and miners and the driver for nonzero entrance fees in practice. We show that miners and users may end up in either a vicious or virtuous cycle, depending on the initial system state. By allowing the entrance fee to be a design parameter, we are able to establish that it is optimal to simply run a blockchain system at its full capacity and a block size as small as possible. Funding: This work was supported by the Hong Kong Research Grants Council [Grants 16200019, 16200617, 16200821, 16208120, and 16214121]. Supplemental Material: The e-companion is available at https://doi.org/10.1287/msom.2023.1197 .
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