Latin American Journal of Central Banking (Jan 2020)

Classifying payment patterns with artificial neural networks: An autoencoder approach

  • Jeniffer Rubio,
  • Paolo Barucca,
  • Gerardo Gage,
  • John Arroyo,
  • Raúl Morales-Resendiz

Journal volume & issue
Vol. 1, no. 1
p. 100013

Abstract

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Payments and market infrastructures are the backbone of modern financial systems and play a key role in the economy. One of their main goals is to manage systemic risk, especially in the case of systemically important payment systems (SIPS) serving interbank funds transfers. We develop an autoencoder for the Sistema de Pagos Interbancarios (SPI) of Ecuador, which is the largest SIPS, to detect potential anomalies stemming from payment patterns. Our work is similar to Triepels et al. (2018) and Sabetti and Heijmans (2020). We train four different autoencoder models using intraday data structured in three time-intervals for the SPI settlement activity to reconstruct its related payments network. We introduce bank run simulations to feature a baseline scenario and identify relevant autoencoder parametrizations for anomaly detection.The main contribution of our work is training an autoencoder to detect a wide range of anomalies in a payment system, ranging from the unusual behavior of individual banks to systemic changes in the overall structure of the payments network. We also found that these novel techniques are robust enough to support the monitoring of payments’ and market infrastructures’ functioning, but need to be accompanied by the expert judgement of payments overseers.

Keywords