Abstract
Systematic decision making in engineering requires appropriate models. In this article, we introduce a regression method for enhancing the predictive power of a model by exploiting expert knowledge in the form of shape constraints, or more specifically, monotonicity constraints. Incorporating such information is particularly useful when the available datasets are small or do not cover the entire input space, as is often the case in manufacturing applications. We set up the regression subject to the considered monotonicity constraints as a semi-infinite optimization problem, and propose an adaptive solution algorithm. The method is applicable in multiple dimensions and can be extended to more general shape constraints. It was tested and validated on two real-world manufacturing processes, namely, laser glass bending and press hardening of sheet metal. It was found that the resulting models both complied well with the expert’s monotonicity knowledge and predicted the training data accurately. The suggested approach led to lower root-mean-squared errors than comparative methods from the literature for the sparse datasets considered in this work.
Highlights
Published: 27 November 2021Systematic decision making in manufacturing—such as finding optimal parameter settings for a manufacturing process—requires appropriate models for that process
We describe the results of our semi-infinite adaptive optimization approach to monotonic regression (SIAMOR) in the industrial processes described in Section 3, and compare them to the results of other approaches to incorporating monotonicity knowledge, which are well-known from the literature
A proof of concept was conducted for the method of semi-infinite optimization with an adaptive discretization scheme to solve monotonic regression problems (SIAMOR)
Summary
Systematic decision making in manufacturing—such as finding optimal parameter settings for a manufacturing process—requires appropriate models for that process. In [3], expert knowledge was used in the form of a specific algebraic relation between input and output to solve a parameter estimation problem with artificial neural networks Such informed machine learning [4] techniques beneficially combine expert knowledge and data to build hybrid or gray-box models [5,6,7,8,9,10,11,12], which predict the responses more accurately than purely data-based models. It turns out that the adaptive semi-infinite optimization approach to monotonic regression is better suited for the considered applications with their small datasets and the resulting models are more accurate than those obtained with the comparative approaches from the literature
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