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区块链数字货币交易的匿名性:保护与对抗 被引量:5

Anonymity in Blockchain Digital Currency Transactions:Protection And Confrontation
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摘要 近年来,以区块链技术为基础的加密数字货币持续涌现,受到各方的广泛关注.与传统的支付方式相比,区块链数字货币具有去中心化特性,支持交易匿名性.然而,匿名性也为不法行为提供了隐匿的便利条件,使得区块链数字货币日益成为洗钱、勒索等违法犯罪活动的支付媒介.因此,区块链数字货币匿名性保护和对抗技术是当前研究的热点问题.本文首先对交易匿名性的内涵进行了深入剖析,将其归纳为不可标识性、不可链接性和不可追踪性三个方面.以此为指导,对区块链数字货币的匿名性保护技术和匿名性对抗技术进行了介绍,并开展了对比分析.最后,本文总结了区块链数字货币匿名性研究所面临的挑战和未来的发展趋势. In recent years,cryptocurrencies based on blockchain technology have emerged and attracted widespread attention from various parties.Compared with traditional payment methods,cryptocurrency has the characteristics of decentralization and supports transaction anonymity.However,anonymity also provides hidden conveniences for illegal activities,making cryptocurrency increasingly a payment medium for money laundering,extortion,and other illicit activities.Therefore,cryptocurrency anonymity protection and countermeasures technology are a hot issue for current research.The research on the anonymity of cryptocurrency transactions mainly focuses on protecting transaction anonymity and the confrontation of anonymity.In terms of transaction anonymity protection,researchers mostly use zero-knowledge proof,Tor network,and other anonymity technologies to ensure the anonymity of users in the entire transaction process from different perspectives.Regarding the confrontation of anonymity,the researchers mainly combined the transaction information disclosed in the blockchain ledger and the dissemination data in the network layer to analyze the transaction traces left by users in the transaction process from different perspectives.In this paper,we first give an in-depth analysis of transaction anonymity's connotation and summarize it into three aspects:(1)Unidentifiability.For a given transaction,the observer cannot identify the true identity of the transaction participants in the physical world.(2)Unlinkability.For a given two transactions(at most,one of which is sent by the observer),the observer cannot determine whether they are paid to the same user.Also,the observer cannot determine whether the same user-initiated them.(3)Untraceability.For a given transaction,the observer cannot trace the flow of funds between the address to which the transaction was sent and the address to which the transaction was received.Then,we group the existing anonymity protection schemes into three categories according to the different focuses:(1)Unidentifiability protection schemes represented by Tor network,which mainly prevent observers from associating transactions with real-life user identities by hiding node information;(2)Unlinkability protection schemes represented by zero-knowledge proof technology,which mainly prevent observers from associating transactions with real-life user entities by hiding transaction information in the ledger to prevent observers from associating transactions with user entities;(3)Untraceability protection schemes represented by coin mixing technology,which mainly prevent observers from tracking the flow of funds based on the links between transaction participants by severing the relationships between them.At the same time,we also summarize the anonymity analysis methods of digital currencies from three aspects:(1)Unidentifiability confrontation,the observer uses the traffic information generated at each stage of cryptocurrency transactions,combined with the IP address,geographic location,organization’s identity,and other information belonging to the P2P node,to identify the real identity information target transaction.(2)Unlinkability confrontation,where the observer discovers the correlation between user addresses and transactions by observing the transaction records in the public ledger based on attributes such as transaction amount,fund flow,and transaction time.(3)Untraceability confrontation,where the observer combines the ledger data and on-chain information to track the fund flow of the transaction.Finally,the paper summarizes the cryptocurrency anonymity research institute's challenges and future development trends.
作者 沈蒙 车征 祝烈煌 徐恪 高峰 余聪聪 吴言 SHEN Meng;CHE Zheng;ZHU Lie-Huang;XU Ke;GAO Feng;YU Cong-Cong;WU Yan(School of Cyberspace Science and Technology,Beijing Institute of Technology,Beijing 100081;School of Computer Science and Technology,Beijing Institute of Technology,Beijing 100081;Department of Computer Science and Technology,Tsinghua University,Beijing 100084;Beijing National Research Center for Information Science and Technology,Beijing 100084)
出处 《计算机学报》 EI CAS CSCD 北大核心 2023年第1期125-146,共22页 Chinese Journal of Computers
基金 国家重点研发计划(2020YFB1006101) 北京市科技新星计划(Z201100006820006) 国家自然科学基金(61825204,61932016,61972039,62132011,62222201) 北京高校卓越青年科学家计划项目(BJJWZYJH01201910003011) 北京市自然科学基金(4192050)资助.
关键词 区块链 数字货币 匿名性 比特币 以太坊 blockchain cryptocurrency anonymity bitcoin ethereum
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