Identification of Surrogate Models for the Prediction of Degrees of Freedom within a Tolerance Chain

https://doi.org/10.1016/j.procs.2022.12.276Get rights and content
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Abstract

The computation of assembly tolerance information is necessary to fulfill robust design requirements. This assembly is computationally costly, with current calculations taking several hours. We aim to identify surrogate models for predicting degrees of freedom within a tolerance chain based on point connections between assembly components. Thus, replacing part of the current computation workflow and consequently reduce computation time. We use manufacturing tolerances set by norms and industrial standards to identifly these surrogate models, which define all relevant features and resulting output variables. We use black-box modeling methods (artificial neural networks and gradient boosted trees), as well as white-box modeling (symbolic regression by genetic programming). We see that these three models can reliably predict the degrees of freedom of a tolerance chain with high accuracy (R2 > 0.99).

Keywords

Machine Learning
Surrogate Model
Genetic Programming
Gradient Boosted Tree
Neural Network
Robust Design
Tolerance Analysis
Symbolic Regression

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