Carpio, AnaRapun, Maria Luisa2023-06-192023-06-192014https://hdl.handle.net/20.500.14352/36157Photothermal imaging allows to inspect the structure of composite materials by means of nondestructive tests. The surface of a medium is heated at a number of locations. The resulting temperature field is recorded on the same surface. Thermal waves are strongly damped. Robust schemes are needed to reconstruct the structure of the medium from the decaying time dependent temperature field. The inverse problem is formulated as a weighted optimization problem with a time dependent constraint. The inclusions buried in the medium and their material constants are the design variables. We propose an approximation scheme in two steps. First, Laplace transforms are used to generate an approximate optimization problem with a small number of stationary constraints. Then, we implement a descent strategy alternating topological derivative techniques to reconstruct the geometry of inclusions with gradient methods to identify their material parameters. Numerical simulations assess the effectivity of the technique.spaconference paperopen accessPhototermal imagingtopological derivativesgradient methodsconstrained optimizationFísica-Modelos matemáticosFísica de materialesAnálisis numéricoEcuaciones diferenciales1206 Análisis Numérico1202.07 Ecuaciones en Diferencias