Optimizing maintenance by learning individual treatment effects
Optimizing maintenance by learning individual treatment effects
The goal in maintenance is to avoid machine failures and overhauls, while simultaneously minimizing the cost of preventive maintenance. Maintenance policies aim to optimally schedule maintenance by modeling the effect of preventive maintenance on machine failures and overhauls. Existing work assumes the effect of preventive maintenance is (1) deterministic or governed by a known probability distribution, and (2) machine-independent. Conversely, this work proposes to relax both assumptions by learning the effect of maintenance conditional on a machine's characteristics from observational data on similar machines using existing methodologies for causal inference. This way, we can estimate the number of overhauls and failures for different levels of maintenance and, consequently, optimize the preventive maintenance frequency. We validate our proposed approach using real-life data on more than 4,000 maintenance contracts from an industrial partner. Empirical results show that our novel, causal approach accurately predicts the maintenance effect and results in individualized maintenance schedules that are more accurate and cost-effective than supervised or non-individualized approaches.
Vanderschueren, Toon
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Boute, Robert
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Verdonck, Tim
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Baesens, Bart
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Verbeke, Wouter
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Vanderschueren, Toon
9a22c052-d53c-4468-8862-d4792e73669f
Boute, Robert
4a9872d0-1c51-4a6d-ac90-0f01b9c8d628
Verdonck, Tim
cb5e5679-a267-49c2-b8a0-55a74d926b1d
Baesens, Bart
f7c6496b-aa7f-4026-8616-ca61d9e216f0
Verbeke, Wouter
78851583-d165-4bf7-bc1b-adbd81f6a836
Vanderschueren, Toon, Boute, Robert, Verdonck, Tim, Baesens, Bart and Verbeke, Wouter
(2022)
Optimizing maintenance by learning individual treatment effects.
The Journal of Credit Risk.
(In Press)
Abstract
The goal in maintenance is to avoid machine failures and overhauls, while simultaneously minimizing the cost of preventive maintenance. Maintenance policies aim to optimally schedule maintenance by modeling the effect of preventive maintenance on machine failures and overhauls. Existing work assumes the effect of preventive maintenance is (1) deterministic or governed by a known probability distribution, and (2) machine-independent. Conversely, this work proposes to relax both assumptions by learning the effect of maintenance conditional on a machine's characteristics from observational data on similar machines using existing methodologies for causal inference. This way, we can estimate the number of overhauls and failures for different levels of maintenance and, consequently, optimize the preventive maintenance frequency. We validate our proposed approach using real-life data on more than 4,000 maintenance contracts from an industrial partner. Empirical results show that our novel, causal approach accurately predicts the maintenance effect and results in individualized maintenance schedules that are more accurate and cost-effective than supervised or non-individualized approaches.
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Accepted/In Press date: 22 November 2022
Identifiers
Local EPrints ID: 484677
URI: http://eprints.soton.ac.uk/id/eprint/484677
PURE UUID: 9d546f4d-1bbc-4e47-85fb-353cdd11a842
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Date deposited: 20 Nov 2023 17:41
Last modified: 17 Mar 2024 07:43
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Contributors
Author:
Toon Vanderschueren
Author:
Robert Boute
Author:
Tim Verdonck
Author:
Wouter Verbeke
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