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Probing the complexity of wood with computer vision: from pixels to properties

Mirko Luković, Laure Ciernik, Gauthier Müller, Dan Kluser, Tuan Van Pham, Ingo Burgert, Mark Schubert

2024Journal of The Royal Society Interface14 citationsDOIOpen Access PDF

Abstract

Abstract We use data produced by industrial wood grading machines to train a machine learning model for predicting strength-related properties of wood lamellae from colour images of their surfaces. The focus was on samples of Norway spruce (Picea abies) wood, which display visible fibre pattern formations on their surfaces. We used a pre-trained machine learning model based on the residual network ResNet50 that we trained with over 15 000 high-definition images labelled with the indicating properties measured by the grading machine. With the help of augmentation techniques, we were able to achieve a coefficient of determination (R2) value of just over 0.9. Considering the ever-increasing demand for construction-grade wood, we argue that computer vision should be considered a viable option for the automatic sorting and grading of wood lamellae in the future.

Topics & Concepts

Grading (engineering)Artificial intelligenceComputer sciencePicea abiesMachine visionPixelResidualComputer visionWood industryPattern recognition (psychology)Machine learningBiological systemEngineeringBotanyAlgorithmForestryBiologyGeographyCivil engineeringWood Treatment and PropertiesIndustrial Vision Systems and Defect DetectionWood and Agarwood Research
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