Dynamic credit-collections optimization

Naveed Chehrazi; Peter W. Glynn; Thomas A. Weber

doi:10.1287/mnsc.2018.3070

Dynamic credit-collections optimization

Naveed Chehrazi
, Peter W. Glynn
, Thomas A. Weber

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Based on a dynamic model of the stochastic repayment behavior exhibited by delinquent credit-card accounts in the form of a self-exciting point process, a bank can control the arrival intensity of repayments using costly account-treatment actions. A semi-analytic solution to the corresponding stochastic optimal control problem is obtained using a recursive approach. For a linear cost of treatment effort, the optimal policy in the two-dimensional (intensity, balance) space is described by the frontier of a convex action region. The unique optimal policy significantly reduces a bank’s loss given default and concentrates the collection effort onto the best possible actions at the best possible times so as to minimize the sum of the expected discounted outstanding balance and the discounted cost of the collection effort, thus maximizing the net value of any given delinquent credit-card account.

Original language	English
Pages (from-to)	2737-2769
Number of pages	33
Journal	Management Science
Volume	65
Issue number	6
DOIs	https://doi.org/10.1287/mnsc.2018.3070
State	Published - Jun 2019

Keywords

Account valuation
Consumer credit
Control of Hawkes processes
Credit collections
Self-exciting point process
Singular control
Stochastic optimization

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10.1287/mnsc.2018.3070

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title = "Dynamic credit-collections optimization",

abstract = "Based on a dynamic model of the stochastic repayment behavior exhibited by delinquent credit-card accounts in the form of a self-exciting point process, a bank can control the arrival intensity of repayments using costly account-treatment actions. A semi-analytic solution to the corresponding stochastic optimal control problem is obtained using a recursive approach. For a linear cost of treatment effort, the optimal policy in the two-dimensional (intensity, balance) space is described by the frontier of a convex action region. The unique optimal policy significantly reduces a bank{\textquoteright}s loss given default and concentrates the collection effort onto the best possible actions at the best possible times so as to minimize the sum of the expected discounted outstanding balance and the discounted cost of the collection effort, thus maximizing the net value of any given delinquent credit-card account.",

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AU - Chehrazi, Naveed

AU - Glynn, Peter W.

AU - Weber, Thomas A.

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AB - Based on a dynamic model of the stochastic repayment behavior exhibited by delinquent credit-card accounts in the form of a self-exciting point process, a bank can control the arrival intensity of repayments using costly account-treatment actions. A semi-analytic solution to the corresponding stochastic optimal control problem is obtained using a recursive approach. For a linear cost of treatment effort, the optimal policy in the two-dimensional (intensity, balance) space is described by the frontier of a convex action region. The unique optimal policy significantly reduces a bank’s loss given default and concentrates the collection effort onto the best possible actions at the best possible times so as to minimize the sum of the expected discounted outstanding balance and the discounted cost of the collection effort, thus maximizing the net value of any given delinquent credit-card account.

KW - Account valuation

KW - Consumer credit

KW - Control of Hawkes processes

KW - Credit collections

KW - Self-exciting point process

KW - Singular control

KW - Stochastic optimization

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DO - 10.1287/mnsc.2018.3070

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JO - Management Science

JF - Management Science

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Dynamic credit-collections optimization

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