利用进化图卷积和深度神经决策森林改进比特币反洗钱

IF 1.7 4区 计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS Data Technologies and Applications Pub Date : 2022-11-09 DOI:10.1108/dta-06-2021-0167
Anuraj Mohan, Karthika P.V., P. Sankar, Maya Manohar K., Amala Peter
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引用次数: 0

摘要

洗钱是通过将非法所得的资金伪装成合法来源来掩盖的过程。犯罪分子利用加密洗钱来隐藏资金的非法来源,使用各种方法。最简单的比特币洗钱形式很大程度上依赖于这样一个事实:用加密货币进行的交易是匿名的,但开放的数据给了调查人员更多的权力,并使法医分析成为可能。为了遏制这些非法活动,存在各种规则、政策和技术,统称为反洗钱(AML)工具。如果实施得当,“反洗钱”限制可以减少非法经济活动的负面影响,同时还可以促进金融市场的诚信和稳定,但这对机构来说代价高昂。这项工作的目的是在考虑到现有数据的局限性的情况下,激发协调安全原因与普惠金融原因的机会。作者使用椭圆数据集;据作者所知,这是任何加密货币中公开可用的最大标记交易数据集。比特币的设计/方法/方法可以建模为动态网络中的节点分类任务。在这项工作中,将引入图卷积决策森林,它结合了进化图卷积网络和深度神经决策森林(DNDF)的潜力。该模型将用于对Elliptic数据集中的未知事务进行分类。此外,与所有其他实验技术相比,知识蒸馏(KD)在该方法上的应用给出了最好的结果。在这项工作中证明了利用动态图学习和集成特征学习之间的连接的重要性。结果表明,该模型对椭圆数据集中的非法交易进行分类具有优越性。实验还表明,当使用KD框架对系统进行微调时,结果可以进一步改善。原创性/价值现有作品使用集成学习或动态图学习来解决比特币中的AML问题。该模型为将随机森林的力量与动态图学习方法相结合提供了一种新的视角。此外,该工作还证明了KD在提高整个系统性能方面的优势。
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Improving anti-money laundering in bitcoin using evolving graph convolutions and deep neural decision forest
PurposeMoney laundering is the process of concealing unlawfully obtained funds by presenting them as coming from a legitimate source. Criminals use crypto money laundering to hide the illicit origin of funds using a variety of methods. The most simplified form of bitcoin money laundering leans hard on the fact that transactions made in cryptocurrencies are pseudonymous, but open data gives more power to investigators and enables the crowdsourcing of forensic analysis. With the motive to curb these illegal activities, there exist various rules, policies and technologies collectively known as anti-money laundering (AML) tools. When properly implemented, AML restrictions reduce the negative effects of illegal economic activity while also promoting financial market integrity and stability, but these bear high costs for institutions. The purpose of this work is to motivate the opportunity to reconcile the cause of safety with that of financial inclusion, bearing in mind the limitations of the available data. The authors use the Elliptic dataset; to the best of the authors' knowledge, this is the largest labelled transaction dataset publicly available in any cryptocurrency.Design/methodology/approachAML in bitcoin can be modelled as a node classification task in dynamic networks. In this work, graph convolutional decision forest will be introduced, which combines the potentialities of evolving graph convolutional network and deep neural decision forest (DNDF). This model will be used to classify the unknown transactions in the Elliptic dataset. Additionally, the application of knowledge distillation (KD) over the proposed approach gives finest results compared to all the other experimented techniques.FindingsThe importance of utilising a concatenation between dynamic graph learning and ensemble feature learning is demonstrated in this work. The results show the superiority of the proposed model to classify the illicit transactions in the Elliptic dataset. Experiments also show that the results can be further improved when the system is fine-tuned using a KD framework.Originality/valueExisting works used either ensemble learning or dynamic graph learning to tackle the problem of AML in bitcoin. The proposed model provides a novel view to combine the power of random forest with dynamic graph learning methods. Furthermore, the work also demonstrates the advantage of KD in improving the performance of the whole system.
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来源期刊
Data Technologies and Applications
Data Technologies and Applications Social Sciences-Library and Information Sciences
CiteScore
3.80
自引率
6.20%
发文量
29
期刊介绍: Previously published as: Program Online from: 2018 Subject Area: Information & Knowledge Management, Library Studies
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