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Optimizing laser cutting of stainless steel using latin hypercube sampling and neural networks

Sket Kristijan, P. Dobson David, Berus Lucijano, Hernavs Jernej, Ficko Mirko

2024Optics & Laser Technology12 citationsDOIOpen Access PDF

Abstract

Optimizing cutting parameters in fiber laser cutting of austenitic stainless steel is challenging due to the complex interplay of multiple variables and quality metrics. To solve this problem, Latin hypercube sampling was used to ensure a comprehensive and efficient exploration of the parameter space with a smaller number of trials (185), coupled with feedforward neural networks for predictive modeling. The networks were trained with a leave-one-out cross-validation strategy to mitigate overfitting. Different configurations of hidden layers, neurons, and training functions were used. The approach was focused on minimizing dross and roughness on both the top and bottom areas of the cut surfaces. During the testing phase, an average MSE of 0.063 and an average MAPE of 4.68% were achieved by the models. Additionally, an experimental test was performed on the best parameter settings predicted by the models. Initial modelling was conducted for each quality metric individually, resulting in an average percentage difference of 1.37% between predicted and actual results. Grid search was also performed to determine an optimal input parameter set for all outputs, with predictions achieving an average accuracy of 98.34%. Experimental validation confirmed the accuracy and robustness of the model predictions, demonstrating the effectiveness of the methodology in optimizing multiple parameters of complex laser cutting processes.

Topics & Concepts

Latin hypercube samplingArtificial neural networkSampling (signal processing)HypercubeLaserLaser cuttingMaterials scienceComputer scienceArtificial intelligenceParallel computingOpticsMathematicsStatisticsComputer visionPhysicsMonte Carlo methodFilter (signal processing)Advanced machining processes and optimizationLaser Material Processing TechniquesIndustrial Vision Systems and Defect Detection
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