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Relational Graph Neural Networks for Fraud Detection in a Super-App environment

Author

Listed:
  • Jaime D. Acevedo-Viloria
  • Luisa Roa
  • Soji Adeshina
  • Cesar Charalla Olazo
  • Andr'es Rodr'iguez-Rey
  • Jose Alberto Ramos
  • Alejandro Correa-Bahnsen

Abstract

Large digital platforms create environments where different types of user interactions are captured, these relationships offer a novel source of information for fraud detection problems. In this paper we propose a framework of relational graph convolutional networks methods for fraudulent behaviour prevention in the financial services of a Super-App. To this end, we apply the framework on different heterogeneous graphs of users, devices, and credit cards; and finally use an interpretability algorithm for graph neural networks to determine the most important relations to the classification task of the users. Our results show that there is an added value when considering models that take advantage of the alternative data of the Super-App and the interactions found in their high connectivity, further proofing how they can leverage that into better decisions and fraud detection strategies.

Suggested Citation

  • Jaime D. Acevedo-Viloria & Luisa Roa & Soji Adeshina & Cesar Charalla Olazo & Andr'es Rodr'iguez-Rey & Jose Alberto Ramos & Alejandro Correa-Bahnsen, 2021. "Relational Graph Neural Networks for Fraud Detection in a Super-App environment," Papers 2107.13673, arXiv.org, revised Jul 2021.
    • Handle: RePEc:arx:papers:2107.13673
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    References listed on IDEAS

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    1. Luisa Roa & Alejandro Correa-Bahnsen & Gabriel Suarez & Fernando Cort'es-Tejada & Mar'ia A. Luque & Cristi'an Bravo, 2020. "Super-App Behavioral Patterns in Credit Risk Models: Financial, Statistical and Regulatory Implications," Papers 2005.14658, arXiv.org, revised Jan 2021.
    2. Véronique Van Vlasselaer & Tina Eliassi-Rad & Leman Akoglu & Monique Snoeck & Bart Baesens, 2017. "GOTCHA! Network-Based Fraud Detection for Social Security Fraud," Management Science, INFORMS, vol. 63(9), pages 3090-3110, September.
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