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Over the years, optical measurement techniques have been the problem-solving backbone of many engineering applications such as nondestructive testing of materials, measurement of various material properties, structural analysis, and experimental mechanics. Digital speckle pattern interferometry gives these measurements with high accuracy. The main challenges in speckle interferometry manifest on phase mapping estimation, leading to the direct determination of the measurement. Furthermore, fringes correlation are characterized by a strong speckle noise defined as a granular structure resulting…mehr

Produktbeschreibung
Over the years, optical measurement techniques have been the problem-solving backbone of many engineering applications such as nondestructive testing of materials, measurement of various material properties, structural analysis, and experimental mechanics. Digital speckle pattern interferometry gives these measurements with high accuracy. The main challenges in speckle interferometry manifest on phase mapping estimation, leading to the direct determination of the measurement. Furthermore, fringes correlation are characterized by a strong speckle noise defined as a granular structure resulting from self-interference of coherent waves randomly scattered from a rough surface, making it capable of giving the measurement of physical magnitude with an accuracy of the order of wavelength used. For this reason, several papers are published annually in the speckle noise reduction domain.
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Autorenporträt
Abdelkrim Nassim, Ph.D. in physics from Chouaib Doukkali University, Morocco in collaboration with FIAM Laboratory, Catholic University of Louvain, Belgium. He has published several papers about digital speckle pattern interferometry in the two principal domains: speckle de-noising and speckle fringes correlation analysis.