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Synthesis of Constraints for Mathematical Programming With One-Class Genetic Programming | IEEE Journals & Magazine | IEEE Xplore

Synthesis of Constraints for Mathematical Programming With One-Class Genetic Programming


Abstract:

Mathematical programming (MP) models are common in optimization of real-world processes. Models are usually built by optimization experts in an iterative manner: an imper...Show More

Abstract:

Mathematical programming (MP) models are common in optimization of real-world processes. Models are usually built by optimization experts in an iterative manner: an imperfect model is continuously improved until it approximates the reality well-enough and meets all technical requirements (e.g., linearity). To facilitate this task, we propose a genetic one-class constraint synthesis method (GOCCS). Given a set of exemplary states of normal operation of a business process, GOCCS synthesizes constraints in linear programming or nonlinear programming form. The synthesized constraints can be then paired with an arbitrary objective function and supplied to an off-the-shelf solver to find optimal parameters of the process. We assess GOCCS on three families of MP benchmarks and conclude promising results. We also apply it to a real-world process of wine production and optimize that process.
Published in: IEEE Transactions on Evolutionary Computation ( Volume: 23, Issue: 1, February 2019)
Page(s): 117 - 129
Date of Publication: 11 May 2018

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