基于多智能体的无块分布式账本仿真

Michele Bottone, F. Raimondi, G. Primiero
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引用次数: 22

摘要

在过去的十年里,像比特币这样的分布式账本和可以自主运行代码的智能合约,无论是在研究兴趣还是在工业和金融应用方面,都出现了指数级的增长。这些在传感器网络和信息物理系统领域找到了自然的应用。然而,区块链的激励架构需要大量的计算资源来挖掘,交易确认的延迟,更重要的是,不断增长的交易费用,这些都不适合由资源有限的设备提供服务的系统,并且确认时间和交易成本应该保持在最低限度,理想情况下不存在。我们专注于适用于WSN, IoT和CPS的分布式账本的新的无块,无费用范式,其中交易是有向无环图的节点,克服了区块链对这些应用程序的限制,例如传感器可以同时是交易的发行者和先前交易的验证者。特别是,我们提出并发布了一个开源的仿真环境,可以很容易地扩展和分析,并确认了网络性能的可用结果。
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Multi-agent Based Simulations of Block-Free Distributed Ledgers
In the past ten years distributed ledgers such as Bitcoin and smart contracts that can run code autonomously have seen an exponential growth both in terms of research interest and in terms of industrial and financial applications. These find a natural application in the area of Sensor Networks and Cyber-Physical Systems. However, the incentive architecture of blockchains requires massive computational resources for mining, delays in the confirmation of transactions and, more importantly, continuously growing transaction fees, which are ill-suited to systems in which services may be provided by resource-limited devices and confirmation times and transaction costs should be kept minimal, ideally absent. We focus on a new block-less, fee-less paradigm for distributed ledgers suitable for the WSN, IoT and CPS in which transactions are nodes of a directed acyclic graph, that overcomes the limitations of blockchains for these applications, and where e.g. sensors can be at the same time issuers of transactions and validators of previous transactions. In particular, we present and release open-source a simulation environment that can be easily extended and analysed, and confirms the available results on the performance of the network.
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