Sharing Information Between Machine Tools to Improve Surface Finish Forecasting
This work addresses inefficiencies in manufacturing quality control for machining processes, though it is incremental as it builds on existing Bayesian methods.
The authors tackled the problem of under-utilized datasets and high costs in surface-quality prediction by proposing a Bayesian hierarchical model for turning machining, which improved prediction accuracy and uncertainty quantification compared to independent models.
At present, most surface-quality prediction methods can only perform single-task prediction which results in under-utilised datasets, repetitive work and increased experimental costs. To counter this, the authors propose a Bayesian hierarchical model to predict surface-roughness measurements for a turning machining process. The hierarchical model is compared to multiple independent Bayesian linear regression models to showcase the benefits of partial pooling in a machining setting with respect to prediction accuracy and uncertainty quantification.