Litcius/Paper detail

Generative Deep Learning-Based Thermographic Inspection of Artwork

Yi Liu, Fumin Wang, Zhili Jiang, Стефано Сфарра, Kaixin Liu, Yuan Yao

2023Sensors11 citationsDOIOpen Access PDF

Abstract

Infrared thermography is a widely utilized nondestructive testing technique in the field of artwork inspection. However, raw thermograms often suffer from problems, such as limited quantity and high background noise, due to limitations inherent in the acquisition equipment and experimental environment. To overcome these challenges, there is a growing interest in developing thermographic data enhancement methods. In this study, a defect inspection method for artwork based on principal component analysis is proposed, incorporating two distinct deep learning approaches for thermographic data enhancement: spectral normalized generative adversarial network (SNGAN) and convolutional autoencoder (CAE). The SNGAN strategy focuses on augmenting the thermal images, while the CAE strategy emphasizes enhancing their quality. Subsequently, principal component thermography (PCT) is employed to analyze the processed data and improve the detectability of defects. Comparing the results to using PCT alone, the integration of the SNGAN strategy led to a 1.08% enhancement in the signal-to-noise ratio, while the utilization of the CAE strategy resulted in an 8.73% improvement.

Topics & Concepts

ThermographyAutoencoderArtificial intelligenceDeep learningPrincipal component analysisComputer scienceNoise (video)Pattern recognition (psychology)Nondestructive testingField (mathematics)Computer visionComponent (thermodynamics)Machine learningEngineeringInfraredImage (mathematics)MathematicsOpticsRadiologyThermodynamicsMedicinePhysicsPure mathematicsThermography and Photoacoustic TechniquesConservation Techniques and StudiesIndustrial Vision Systems and Defect Detection