Grain and grain boundary segmentation using machine learning with real and generated datasets

人工智能 计算机科学 分割 机器学习 卷积神经网络 模式识别(心理学) 噪音(视频) 图像分割 计算机视觉 图像(数学)
作者
Peter Warren,Nandhini Raju,Abhilash Prasad,Md Shahjahan Hossain,Ramesh Subramanian,Jayanta Kapat,Navin Jose Manjooran,Ranajay Ghosh
出处
期刊:Computational Materials Science [Elsevier BV]
卷期号:233: 112739-112739 被引量:11
标识
DOI:10.1016/j.commatsci.2023.112739
摘要

We report a significantly improved accuracy in grain boundary segmentation using Convolutional Neural Networks (CNN) trained on a combination of real and generated data. Manual segmentation is accurate but time-consuming, and existing computational methods are faster but often inaccurate. To combat this dilemma, machine learning models can be used to achieve the accuracy of manual segmentation and have the efficiency of a computational method. An extensive dataset of from 316L stainless steel samples is additively manufactured, prepared, polished, etched, and then microstructure grain images were systematically collected. Grain segmentation via existing computational methods and manual (by-hand) were conducted, to create ”real” training data. A Voronoi tessellation pattern combined with random synthetic noise and simulated defects, is developed to create a novel artificial grain image fabrication method. This provided training data supplementation for data-intensive machine learning methods. The accuracy of the grain measurements from microstructure images segmented via computational methods and machine learning methods proposed in this work are calculated and compared, and also provide benchmarks in grain segmentation. Over 400 images of the microstructure of stainless steel samples were manually segmented for machine learning training applications. This data and the artificial data is available on Kaggle.
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