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Public-Key Cryptography behind Blockchain Security

2022 5th International Conference on Networking, Information Systems and Security: Envisage Intelligent Systems in 5g//6G-based Interconnected Digital Worlds (NISS) Pub Date : 2022-03-30 DOI:10.1109/NISS55057.2022.10085236
Mohamed Fartitchou, Hanaa El Marraki, Lamyae Lafkir, Anissa Azzouz, K. Makkaoui, Z. E. Allali
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引用次数: 2

Abstract

Blockchain (BC) technology has infiltrated many areas of our lives, from digital currencies to healthcare and beyond, thanks to its security, decentralization, and transparency properties. BC is a decentralized ledger of assets and digitally signed transactions through a peer-to-peer (P2P) computer network. Indeed, signature and consensus algorithms are behind BC’s security and performance. This paper provides a study on BC-used asymmetric cryptography. We focus on RSA, DSA, and ECDSA digital signature algorithms. We implement the algorithms using python language on a Raspberry Pi. Simulation outcomes show that the ECDSA performs better than the other algorithms and is secure despite using small keys.
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区块链安全背后的公钥加密
区块链(BC)技术由于其安全性、去中心化和透明度,已经渗透到我们生活的许多领域,从数字货币到医疗保健等。BC是一种分散的资产分类账,通过点对点(P2P)计算机网络进行数字签名交易。事实上,签名和共识算法是BC安全性和性能的背后。本文研究了基于bc的非对称密码。重点介绍了RSA、DSA和ECDSA数字签名算法。我们使用python语言在树莓派上实现了算法。仿真结果表明,ECDSA算法的性能优于其他算法,并且在使用小密钥的情况下具有较高的安全性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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2022 5th International Conference on Networking, Information Systems and Security: Envisage Intelligent Systems in 5g//6G-based Interconnected Digital Worlds (NISS)
2022 5th International Conference on Networking, Information Systems and Security: Envisage Intelligent Systems in 5g//6G-based Interconnected Digital Worlds (NISS)
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