A neuro-structural framework for bankruptcy prediction
A neuro-structural framework for bankruptcy prediction
We develop a framework to simultaneously compute the unobservable parameters underlying the structural-parametric models for bankruptcy prediction. More specifically, we compute the unobservable parameters such as, asset value and asset volatility, through learning by embedding in the structural models a neural network that maps the neural network’s input space (e.g. companies’ observable financial and market data) to the unobservable parameter space. Within such a ‘neuro-structural’ framework, the neural network and the structural model work together as a one unit during the learning phase by providing to each other forward and backward information, respectively, until the weights of the neural network are optimized according to a merit function. Empirical results show that structural models, like the Black-Scholes-Merton and the Down-and-Out option models, with parameters computed with our approach, perform better than alternative specifications of the structural models, out of sample, in terms of discriminatory power, information content and economic impact. Importantly, they also perform better than a standard neural network, suggesting that the co-joint dynamics between the neural network and the structural model are useful during the learning phase and can improve the prediction performance (and the training efficiency) of neural networks. Finally, our approach provides methodological (and empirical) enhancements over logit specifications such as, Campbell et al. [In search of distress risk. J Finance, 2008, 63, 2899–2939]. There, financial and market data are the inputs, and the output is the probability of bankruptcy whereas our approach includes an intermediary step to obtain the unobservable parameters and subsequently the probability of bankruptcy.
Bankruptcy prediction, Discriminatory power, Economic impact, Neuro-structural approach, Parameters estimation
1445-1464
Charalambous, Christakis
a8a7538e-a1a4-4212-bf73-3125c1e41fac
Martzoukos, Spiros H.
20356511-0a49-46cc-b531-2c54a89da880
Taoushianis, Zenon
5c536511-1155-4a5b-8249-0a944572b7fc
21 July 2023
Charalambous, Christakis
a8a7538e-a1a4-4212-bf73-3125c1e41fac
Martzoukos, Spiros H.
20356511-0a49-46cc-b531-2c54a89da880
Taoushianis, Zenon
5c536511-1155-4a5b-8249-0a944572b7fc
Charalambous, Christakis, Martzoukos, Spiros H. and Taoushianis, Zenon
(2023)
A neuro-structural framework for bankruptcy prediction.
Quantitative Finance, 23 (10), .
(doi:10.1080/14697688.2023.2230241).
Abstract
We develop a framework to simultaneously compute the unobservable parameters underlying the structural-parametric models for bankruptcy prediction. More specifically, we compute the unobservable parameters such as, asset value and asset volatility, through learning by embedding in the structural models a neural network that maps the neural network’s input space (e.g. companies’ observable financial and market data) to the unobservable parameter space. Within such a ‘neuro-structural’ framework, the neural network and the structural model work together as a one unit during the learning phase by providing to each other forward and backward information, respectively, until the weights of the neural network are optimized according to a merit function. Empirical results show that structural models, like the Black-Scholes-Merton and the Down-and-Out option models, with parameters computed with our approach, perform better than alternative specifications of the structural models, out of sample, in terms of discriminatory power, information content and economic impact. Importantly, they also perform better than a standard neural network, suggesting that the co-joint dynamics between the neural network and the structural model are useful during the learning phase and can improve the prediction performance (and the training efficiency) of neural networks. Finally, our approach provides methodological (and empirical) enhancements over logit specifications such as, Campbell et al. [In search of distress risk. J Finance, 2008, 63, 2899–2939]. There, financial and market data are the inputs, and the output is the probability of bankruptcy whereas our approach includes an intermediary step to obtain the unobservable parameters and subsequently the probability of bankruptcy.
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A neuro structural framework for bankruptcy prediction (1)
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Accepted/In Press date: 22 June 2023
e-pub ahead of print date: 21 July 2023
Published date: 21 July 2023
Additional Information:
Funding Information:
We would like to thank Mathias Verreydt and John Finnerty for discussing the paper at the FMA 2021 European Conference in Limassol, Cyprus and at the FMA 2020 International Conference in New York, USA, respectively, the conference participants of the FMARC 2019 annual conference in Limassol, Cyprus and IFORS 2017 triennial conference at Quebec, Canada.
Publisher Copyright:
© 2023 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.
Keywords:
Bankruptcy prediction, Discriminatory power, Economic impact, Neuro-structural approach, Parameters estimation
Identifiers
Local EPrints ID: 480616
URI: http://eprints.soton.ac.uk/id/eprint/480616
ISSN: 1469-7688
PURE UUID: 91e61e61-aaa0-473c-8f78-902ee2d6d6ca
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Date deposited: 07 Aug 2023 16:55
Last modified: 17 Mar 2024 03:58
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Author:
Christakis Charalambous
Author:
Spiros H. Martzoukos
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