Modelling credit grade migration in large portfolios using cumulative t-link transition models
Modelling credit grade migration in large portfolios using cumulative t-link transition models
For a credit portfolio, we are often interested in modelling the migration of accounts between credit grades over time. For a large retail portfolio, data on credit grade migration may be available only in the form of a series of (typically monthly) population transition matrices representing the gross flow of accounts between each pair of credit grades in the given time period. The challenge is to model the transition process on the basis of these aggregate flow matrices. Each row of an observed transition matrix represents a sample from an ordinal probability distribution. Following [Malik, M. and Thomas, L.C. (2012). Transition matrix models of consumer credit ratings. International Journal of Forecasting, 28, 261-272.], [Feng, D., Gourieroux, C. and Jasiak, J. (2008). The ordered qualitative model for credit rating transitions. Journal of Empirical Finance, 15, 111-130.] and [McNeil, A.J. and Wendin, J.P. (2006). Dependent credit migrations. Journal of Credit Risk, 2, 87-114.], we assume a cumulative link model for these ordinal distributions. Common choices of link function are based on the normal (probit link) or logistic distributions, but the fit to observed data can be poor. In this paper, we investigate the fit of alternative link specifications based on the t-distribution. Such distributions arise naturally when modelling data which arise through aggregating an inhomogeneous sample of obligors, by combining a simple structural-type model for credit migration at the obligor level, with a suitable mixing distribution to model the variability between obligors.
markov processes, cumulative link, heavy-tailed, logistic, probit, transition matrix
977-984
Forster, Jonathan J.
e3c534ad-fa69-42f5-b67b-11617bc84879
Buzzacchi, Matteo
325ecb75-ea6a-4946-87d3-5063bd2ba9ee
Sudjianto, Agus
3250a290-9430-4810-85c6-5cb53715a98e
Nagao, Risa
5d331e9a-de38-4485-8d96-b5ea4dcf6cf1
2016
Forster, Jonathan J.
e3c534ad-fa69-42f5-b67b-11617bc84879
Buzzacchi, Matteo
325ecb75-ea6a-4946-87d3-5063bd2ba9ee
Sudjianto, Agus
3250a290-9430-4810-85c6-5cb53715a98e
Nagao, Risa
5d331e9a-de38-4485-8d96-b5ea4dcf6cf1
Forster, Jonathan J., Buzzacchi, Matteo, Sudjianto, Agus and Nagao, Risa
(2016)
Modelling credit grade migration in large portfolios using cumulative t-link transition models.
European Journal of Operational Research, 254 (3), .
(doi:10.1016/j.ejor.2016.03.017).
Abstract
For a credit portfolio, we are often interested in modelling the migration of accounts between credit grades over time. For a large retail portfolio, data on credit grade migration may be available only in the form of a series of (typically monthly) population transition matrices representing the gross flow of accounts between each pair of credit grades in the given time period. The challenge is to model the transition process on the basis of these aggregate flow matrices. Each row of an observed transition matrix represents a sample from an ordinal probability distribution. Following [Malik, M. and Thomas, L.C. (2012). Transition matrix models of consumer credit ratings. International Journal of Forecasting, 28, 261-272.], [Feng, D., Gourieroux, C. and Jasiak, J. (2008). The ordered qualitative model for credit rating transitions. Journal of Empirical Finance, 15, 111-130.] and [McNeil, A.J. and Wendin, J.P. (2006). Dependent credit migrations. Journal of Credit Risk, 2, 87-114.], we assume a cumulative link model for these ordinal distributions. Common choices of link function are based on the normal (probit link) or logistic distributions, but the fit to observed data can be poor. In this paper, we investigate the fit of alternative link specifications based on the t-distribution. Such distributions arise naturally when modelling data which arise through aggregating an inhomogeneous sample of obligors, by combining a simple structural-type model for credit migration at the obligor level, with a suitable mixing distribution to model the variability between obligors.
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Migrationpaper2.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 11 March 2016
e-pub ahead of print date: 7 April 2016
Published date: 2016
Keywords:
markov processes, cumulative link, heavy-tailed, logistic, probit, transition matrix
Organisations:
Statistics
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Local EPrints ID: 392741
URI: http://eprints.soton.ac.uk/id/eprint/392741
ISSN: 0377-2217
PURE UUID: 5fb7d592-00c1-4bd1-85f0-a677347188af
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Date deposited: 18 Apr 2016 08:07
Last modified: 15 Mar 2024 05:29
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Contributors
Author:
Jonathan J. Forster
Author:
Matteo Buzzacchi
Author:
Agus Sudjianto
Author:
Risa Nagao
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