Application of the topological derivative to post-processing infrared time-harmonic thermograms for defect detection
Manuel Pena, María-Luisa Rapún
Abstract
Abstract This paper deals with active time-harmonic infrared thermography applied to the detection of defects inside thin plates. We propose a method to post-process raw thermograms based on the computation of topological derivatives which will produce much sharper images (namely, where contrast is highly enhanced) than the original thermograms. The reconstruction algorithm does not need information about the number of defects, nor the size or position. A collection of numerical experiments illustrates that the algorithm is highly robust against measurement errors in the thermograms, giving a good approximation of the shape, position and number of defects without the need of an iterative process.
Topics & Concepts
ThermographyPosition (finance)ComputationInfraredAlgorithmProcess (computing)Computer scienceHarmonicTopology (electrical circuits)OpticsMathematicsPhysicsAcousticsEconomicsCombinatoricsFinanceOperating systemThermography and Photoacoustic TechniquesPhotoacoustic and Ultrasonic ImagingOptical measurement and interference techniques