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Machine learning-based multidomain processing for texture-based image segmentation and analysis

Nikolay Borodinov, Wan‐Yu Tsai, Vladimir V. Korolkov, Nina Balke, Sergei V. Kalinin, Olga S. Ovchinnikova

2020Applied Physics Letters32 citationsDOIOpen Access PDF

Abstract

Atomic and molecular resolved atomic force microscopy (AFM) images offer unique insights into materials' properties such as local ordering, molecular orientation, and topological defects, which can be used to pinpoint physical and chemical interactions occurring at the surface. Utilizing machine learning for extracting underlying physical parameters increases the throughput of AFM data processing and eliminates inconsistencies intrinsic to manual image analysis, thus enabling the creation of reliable frameworks for qualitative and quantitative evaluation of experimental data. Here, we present a robust and scalable approach to the segmentation of AFM images based on flexible pre-selected classification criteria. The usage of supervised learning and feature extraction allows us to retain the consideration of specific problem-dependent features (such as types of periodical structures observed in the images and the associated numerical parameters: spacing, orientation, etc.). We highlight the applicability of this approach for the segmentation of molecular resolved AFM images based on the crystal orientation of the observed domains, automated selection of boundaries, and collection of relevant statistics. Overall, we outline a general strategy for machine learning-enabled analysis of nanoscale systems exhibiting periodic order that could be applied to any analytical imaging technique.

Topics & Concepts

SegmentationComputer scienceArtificial intelligenceOrientation (vector space)ScalabilityImage processingImage segmentationTexture (cosmology)Feature extractionMachine learningPattern recognition (psychology)Atomic force microscopyMaterials scienceImage (mathematics)NanotechnologyMathematicsDatabaseGeometryMachine Learning in Materials ScienceX-ray Diffraction in CrystallographyForce Microscopy Techniques and Applications
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