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Leveraging Machine Learning for Multichain DeFi Fraud Detection

Author

Listed:
  • Georgios Palaiokrassas
  • Sandro Scherrers
  • Iason Ofeidis
  • Leandros Tassiulas

Abstract

Since the inception of permissionless blockchains with Bitcoin in 2008, it became apparent that their most well-suited use case is related to making the financial system and its advantages available to everyone seamlessly without depending on any trusted intermediaries. Smart contracts across chains provide an ecosystem of decentralized finance (DeFi), where users can interact with lending pools, Automated Market Maker (AMM) exchanges, stablecoins, derivatives, etc. with a cumulative locked value which had exceeded 160B USD. While DeFi comes with high rewards, it also carries plenty of risks. Many financial crimes have occurred over the years making the early detection of malicious activity an issue of high priority. The proposed framework introduces an effective method for extracting a set of features from different chains, including the largest one, Ethereum and it is evaluated over an extensive dataset we gathered with the transactions of the most widely used DeFi protocols (23 in total, including Aave, Compound, Curve, Lido, and Yearn) based on a novel dataset in collaboration with Covalent. Different Machine Learning methods were employed, such as XGBoost and a Neural Network for identifying fraud accounts detection interacting with DeFi and we demonstrate that the introduction of novel DeFi-related features, significantly improves the evaluation results, where Accuracy, Precision, Recall, F1-score and F2-score where utilized.

Suggested Citation

  • Georgios Palaiokrassas & Sandro Scherrers & Iason Ofeidis & Leandros Tassiulas, 2023. "Leveraging Machine Learning for Multichain DeFi Fraud Detection," Papers 2306.07972, arXiv.org.
    • Handle: RePEc:arx:papers:2306.07972
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    References listed on IDEAS

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    1. Kaihua Qin & Liyi Zhou & Pablo Gamito & Philipp Jovanovic & Arthur Gervais, 2021. "An Empirical Study of DeFi Liquidations: Incentives, Risks, and Instabilities," Papers 2106.06389, arXiv.org, revised Oct 2021.
    2. Antzelos Kyriazis & Iason Ofeidis & Georgios Palaiokrassas & Leandros Tassiulas, 2023. "Monetary Policy, Digital Assets, and DeFi Activity," Papers 2302.10252, arXiv.org.
    3. Michael Darlin & Georgios Palaiokrassas & Leandros Tassiulas, 2022. "Debt-Financed Collateral and Stability Risks in the DeFi Ecosystem," Papers 2204.11107, arXiv.org, revised Jun 2022.
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