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TOPO-Loss for continuity-preserving crack detection using deep learning

Bryan German Pantoja-Rosero, Doruk Öner, Mateusz Koziński, Radhakrishna Achanta, Pascal Fua, Fernando Pérez‐Cruz, Katrin Beyer

2022Construction and Building Materials56 citationsDOIOpen Access PDF

Abstract

We present a method for segmenting cracks in images of masonry buildings damaged by earthquakes. Existing methods of crack detection fail to preserve the continuity of cracks, and their performance deteriorates with imprecise training labels. We address these problems by adapting an approach previously proposed for reconstructing roads in aerial images, in which a Convolutional Neural Network is trained with a loss function specifically designed to encourage the continuity of thin structures and to accommodate imprecise annotations. We evaluate combinations of three loss functions (the Mean Squared Error, the Dice loss and the new connectivity-oriented loss) on two datasets using TernausNet, a deep network shown to attain state-of-the-art accuracy in crack detection. We herein show that combining these three losses significantly improves the topology of the predictions quantitatively and qualitatively. We also propose a new continuity metric, named Cracks Per Patch (CPP), and share a new dataset of images of earthquake-affected urban scenes accompanied by crack annotations. The dataset and implementations are publicly available for future studies and benchmarking (https://github.com/eesd-epfl/topo_crack_detection and https://doi.org/10.5281/zenodo.6769028).

Topics & Concepts

Computer scienceMetric (unit)Convolutional neural networkDiceArtificial intelligenceDeep learningBenchmarkingFunction (biology)MasonryMean squared errorArtificial neural networkPattern recognition (psychology)Structural engineeringMathematicsEngineeringGeometryStatisticsMarketingOperations managementBusinessBiologyEvolutionary biologyInfrastructure Maintenance and MonitoringAsphalt Pavement Performance EvaluationConcrete Corrosion and Durability