Debtor level collection operations using Bayesian dynamic programming
Debtor level collection operations using Bayesian dynamic programming
After a borrower defaults on their repayment obligations, collectors of unsecured consumer credit debt have a number of actions (e.g., telephone calls, formal letters,) they can take to secure some repayment of the debt. If these actions fail, collectors could seek legal proceedings. The operations management challenge in this setting is to decide which of these actions to take, how long to take them, and in what sequence to take them. Ideally, this collection policy should depend on how the defaulter has been performing during the collection process so far. In particular, it should take into account how many payments the defaulter has made under the current action, compared with how long that action has been tried. Other potential considerations aside, the objective of a collections policy typically is to maximize the recovery rate, i.e., the percentage of the defaulted debt that is recovered in the collections process. In this paper, we use a Bayesian Markov Decision Process (MDP) model to find an optimal policy of what action to undertake in the next period given the current information on the individual debtor’s repayment performance thus far. The proposed model will be empirically validated with data provided by a European bank’s in-house collections department. The model will be able to use by banks to decide their debt collection strategy.
finance, dynamic programming, bayesian updating, Stochastic processes
1332-1348
So, Mee
c6922ccf-547b-485e-8b74-a9271e6225a2
Mues, Christophe
07438e46-bad6-48ba-8f56-f945bc2ff934
De Almeida Filho, Adiel T.
7dc4e734-a43e-4579-91cb-d0e030073f44
Thomas, Lyn C
a3ce3068-328b-4bce-889f-965b0b9d2362
2019
So, Mee
c6922ccf-547b-485e-8b74-a9271e6225a2
Mues, Christophe
07438e46-bad6-48ba-8f56-f945bc2ff934
De Almeida Filho, Adiel T.
7dc4e734-a43e-4579-91cb-d0e030073f44
Thomas, Lyn C
a3ce3068-328b-4bce-889f-965b0b9d2362
So, Mee, Mues, Christophe, De Almeida Filho, Adiel T. and Thomas, Lyn C
(2019)
Debtor level collection operations using Bayesian dynamic programming.
Journal of the Operational Research Society, 70 (8), .
(doi:10.1080/01605682.2018.1506557).
Abstract
After a borrower defaults on their repayment obligations, collectors of unsecured consumer credit debt have a number of actions (e.g., telephone calls, formal letters,) they can take to secure some repayment of the debt. If these actions fail, collectors could seek legal proceedings. The operations management challenge in this setting is to decide which of these actions to take, how long to take them, and in what sequence to take them. Ideally, this collection policy should depend on how the defaulter has been performing during the collection process so far. In particular, it should take into account how many payments the defaulter has made under the current action, compared with how long that action has been tried. Other potential considerations aside, the objective of a collections policy typically is to maximize the recovery rate, i.e., the percentage of the defaulted debt that is recovered in the collections process. In this paper, we use a Bayesian Markov Decision Process (MDP) model to find an optimal policy of what action to undertake in the next period given the current information on the individual debtor’s repayment performance thus far. The proposed model will be empirically validated with data provided by a European bank’s in-house collections department. The model will be able to use by banks to decide their debt collection strategy.
Text
JORS Collections Bayesian DP
- Accepted Manuscript
More information
Accepted/In Press date: 10 May 2018
e-pub ahead of print date: 25 March 2019
Published date: 2019
Keywords:
finance, dynamic programming, bayesian updating, Stochastic processes
Identifiers
Local EPrints ID: 421627
URI: http://eprints.soton.ac.uk/id/eprint/421627
ISSN: 0160-5682
PURE UUID: 2d9bdff5-877a-462b-9e63-ed0978ab0f04
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Date deposited: 18 Jun 2018 16:30
Last modified: 16 Mar 2024 06:43
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Contributors
Author:
Adiel T. De Almeida Filho
Author:
Lyn C Thomas
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