采用智能合约技术的区块链文凭真实性验证系统

IF 0.3 Q4 MATHEMATICS Annales Mathematicae et Informaticae Pub Date : 2023-01-01 DOI:10.33039/ami.2023.07.002
Ruben Frisch, Dóra Éva Dobák, József Udvaros
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引用次数: 0

摘要

. 区块链技术和智能合约具有巨大的潜力,但尚未得到充分利用。本文的主要目的是展示区块链技术和智能合约的强大属性,展示我们在高等教育领域使用以太坊协议进行文档验证的独特而强大的用例。我们的智能合约用例将利用区块链技术的主要属性来解决文档伪造问题。除了近乎完美的可用性和去中心化之外,这些惊人的属性还包括不变性、抗审查性、极端鲁棒性、透明性和中立性。以太坊使开发人员能够创建分散的应用程序,而无需投资昂贵的基础设施。文件伪造在教育部门和学术界有着悠久的历史。在这个数字时代,获得假大学文凭、证书和许多其他类型的证书变得非常简单和廉价。这对高等教育有长期的负面影响,因为它破坏了学生的健康竞争环境和机构的声誉和信誉。最有问题的文凭版本是最容易伪造的物理文凭。即使使用相对昂贵且难以复制的安全元素,如全息图和特殊安全标记,这些也不足以有效地阻止恶意行为者试图伪造和复制它们。我们用来预防的更复杂的方法
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Blockchain diploma authenticity verification system using smart contract technology
. Blockchain technology and smart contracts have huge potential which has not been exploited fully yet. The main objective of this paper is to showcase the powerful attributes of blockchain technology and smart contracts, showcasing our unique and powerful use case of document verification in the field of higher education using the Ethereum protocol. Our smart contract use case will take advantage of the main attributes of blockchain technology to solve the problem of document forgery. These amazing attributes are immutability, censorship resistance, extreme robusticity, trans-parency, and neutrality, in addition to near-perfect availability and decentralization. Ethereum enables developers to create decentralized applications without having to invest in expensive infrastructure. Document forgery has a very long track record in the education sector and academia. In this digital age, it has become frighteningly simple and inexpensive to acquire fake university diplomas, certificates, and many other types of credentials. This has a long-term negative effect on higher-level education because it damages the healthy competitive environment of students and the reputation and credibility of institutions. The most problematic version of the diploma which is the most susceptible to forgery is physical diplomas. Even with relatively expensive and difficult-to-replicate security elements, such as holograms and special security markings, these are not efficient enough to keep bad actors away from trying to forge them and replicate them. The more complex meth-ods we use for preventing
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