Multilayer network analysis for improved credit risk prediction
Multilayer network analysis for improved credit risk prediction
We present a multilayer network model for credit risk assessment. Our model accounts for multiple connections between borrowers (such as their geographic location and their economic activity) and allows for explicitly modelling the interaction between connected borrowers. We develop a multilayer personalized PageRank algorithm that allows quantifying the strength of the default exposure of any borrower in the network. We test our methodology in an agricultural lending framework, where it has been suspected for a long time default correlates between borrowers when they are subject to the same structural risks. Our results show there are significant predictive gains just by including centrality multilayer network information in the model, and these gains are increased by more complex information such as the multilayer PageRank variables. The results suggest default risk is highest when an individual is connected to many defaulters, but this risk is mitigated by the size of the neighbourhood of the individual, s
Oskarsdottir, Maria
d159ed8f-9dd3-4ff3-8b00-d43579ab71be
Bravo Roman, Cristian
a352fb33-4661-4eb8-8eb0-fb52e96a62ca
24 July 2021
Oskarsdottir, Maria
d159ed8f-9dd3-4ff3-8b00-d43579ab71be
Bravo Roman, Cristian
a352fb33-4661-4eb8-8eb0-fb52e96a62ca
Oskarsdottir, Maria and Bravo Roman, Cristian
(2021)
Multilayer network analysis for improved credit risk prediction.
OMEGA - The International Journal of Management Science, 105, [102520].
(doi:10.1016/j.omega.2021.102520).
Abstract
We present a multilayer network model for credit risk assessment. Our model accounts for multiple connections between borrowers (such as their geographic location and their economic activity) and allows for explicitly modelling the interaction between connected borrowers. We develop a multilayer personalized PageRank algorithm that allows quantifying the strength of the default exposure of any borrower in the network. We test our methodology in an agricultural lending framework, where it has been suspected for a long time default correlates between borrowers when they are subject to the same structural risks. Our results show there are significant predictive gains just by including centrality multilayer network information in the model, and these gains are increased by more complex information such as the multilayer PageRank variables. The results suggest default risk is highest when an individual is connected to many defaulters, but this risk is mitigated by the size of the neighbourhood of the individual, s
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Accepted/In Press date: 13 July 2021
e-pub ahead of print date: 15 July 2021
Published date: 24 July 2021
Identifiers
Local EPrints ID: 498250
URI: http://eprints.soton.ac.uk/id/eprint/498250
ISSN: 0305-0483
PURE UUID: 46842fc6-5201-45b8-88f9-b032bbb5b95b
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Date deposited: 13 Feb 2025 17:30
Last modified: 22 Aug 2025 02:47
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Author:
Maria Oskarsdottir
Author:
Cristian Bravo Roman
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