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Exposure at default models with and without the credit conversion factor

Exposure at default models with and without the credit conversion factor
Exposure at default models with and without the credit conversion factor
The Basel II and III Accords allow banks to calculate regulatory capital using their own internally developed models under the advanced internal ratings-based approach (AIRB). The Exposure at Default (EAD) is a core parameter modelled for revolving credit facilities with variable exposure. The credit conversion factor (CCF), the proportion of the current undrawn amount that will be drawn down at time of default, is used to calculate the EAD and poses modelling challenges with its bimodal distribution bounded between zero and one. There has been debate on the suitability of the CCF for EAD modelling. We explore alternative EAD models which ignore the CCF formulation and target the EAD distribution directly. We propose a mixture model with the zero-adjusted gamma distribution and compare its performance to three variants of CCF models and a utilization change model which are used in industry and academia. Additionally, we assess credit usage - the percentage of the committed amount that has been currently drawn - as a segmentation criterion to combine direct EAD and CCF models. The models are applied to a dataset from a credit card portfolio of a UK bank. The performance of these models is compared using cross-validation on a series of measures. We find the zero-adjusted gamma model to be more accurate in calibration than the benchmark models and that segmented approaches offer further performance improvements. These results indicate direct EAD models without the CCF formulation can be an alternative to CCF based models or that both can be combined.
exposure at default, credit cards, generalized additive models, regression, risk analysis
0377-2217
910-920
Tong, E.
d296c683-25c9-456b-80be-54828f082df9
Mues, C.
07438e46-bad6-48ba-8f56-f945bc2ff934
Brown, I.
13b13988-789f-40e2-a2d8-8f326f68eedd
Thomas, L.C.
a3ce3068-328b-4bce-889f-965b0b9d2362
Tong, E.
d296c683-25c9-456b-80be-54828f082df9
Mues, C.
07438e46-bad6-48ba-8f56-f945bc2ff934
Brown, I.
13b13988-789f-40e2-a2d8-8f326f68eedd
Thomas, L.C.
a3ce3068-328b-4bce-889f-965b0b9d2362

Tong, E., Mues, C., Brown, I. and Thomas, L.C. (2016) Exposure at default models with and without the credit conversion factor. European Journal of Operational Research, 252 (3), 910-920. (doi:10.1016/j.ejor.2016.01.054).

Record type: Article

Abstract

The Basel II and III Accords allow banks to calculate regulatory capital using their own internally developed models under the advanced internal ratings-based approach (AIRB). The Exposure at Default (EAD) is a core parameter modelled for revolving credit facilities with variable exposure. The credit conversion factor (CCF), the proportion of the current undrawn amount that will be drawn down at time of default, is used to calculate the EAD and poses modelling challenges with its bimodal distribution bounded between zero and one. There has been debate on the suitability of the CCF for EAD modelling. We explore alternative EAD models which ignore the CCF formulation and target the EAD distribution directly. We propose a mixture model with the zero-adjusted gamma distribution and compare its performance to three variants of CCF models and a utilization change model which are used in industry and academia. Additionally, we assess credit usage - the percentage of the committed amount that has been currently drawn - as a segmentation criterion to combine direct EAD and CCF models. The models are applied to a dataset from a credit card portfolio of a UK bank. The performance of these models is compared using cross-validation on a series of measures. We find the zero-adjusted gamma model to be more accurate in calibration than the benchmark models and that segmented approaches offer further performance improvements. These results indicate direct EAD models without the CCF formulation can be an alternative to CCF based models or that both can be combined.

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More information

Accepted/In Press date: 25 January 2016
e-pub ahead of print date: 1 February 2016
Published date: 1 August 2016
Keywords: exposure at default, credit cards, generalized additive models, regression, risk analysis
Organisations: Southampton Business School
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Identifiers

Local EPrints ID: 386763
URI: http://eprints.soton.ac.uk/id/eprint/386763
DOI: doi:10.1016/j.ejor.2016.01.054
ISSN: 0377-2217
PURE UUID: 6ab18447-6cf2-4e38-8f6f-5dc537cc39bb
ORCID for C. Mues: ORCID iD orcid.org/0000-0002-6289-5490

Catalogue record

Date deposited: 04 Feb 2016 09:46
Last modified: 15 Mar 2024 05:23

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Contributors

Author: E. Tong
Author: C. Mues ORCID iD
Author: I. Brown
Author: L.C. Thomas

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