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Phase derivative estimation in digital holographic interferometry using a deep learning approach

Allaparthi Venkata Satya Vithin, Ankur Vishnoi, Rajshekhar Gannavarpu

2022Applied Optics28 citationsDOI

Abstract

In digital holographic interferometry, reliable estimation of phase derivatives from the complex interference field signal is an important challenge since these are directly related to the displacement derivatives of a deformed object. In this paper, we propose an approach based on deep learning for direct estimation of phase derivatives in digital holographic interferometry. Using a Y-Net model, our proposed approach allows for simultaneous estimation of phase derivatives along the vertical and horizontal dimensions. The robustness of the proposed approach for phase derivative extraction under both additive white Gaussian noise and speckle noise is shown via numerical simulations. Subsequently, we demonstrate the practical utility of the method for deformation metrology using experimental data obtained from digital holographic interferometry.

Topics & Concepts

Electronic speckle pattern interferometryHolographic interferometryDigital holographyInterferometryOpticsHolographySpeckle imagingInterference (communication)Computer scienceSpeckle noiseSpeckle patternRobustness (evolution)Phase retrievalDigital holographic microscopyPhase (matter)PhysicsFourier transformTelecommunicationsQuantum mechanicsGeneChannel (broadcasting)BiochemistryChemistryDigital Holography and MicroscopyOptical measurement and interference techniquesAdvanced Vision and Imaging
Phase derivative estimation in digital holographic interferometry using a deep learning approach | Litcius