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25 April 2006 Speckle reduction in digital holography using independent component analysis
Jonathan Maycock, Conor P. McElhinney, John B. McDonald, Thomas J. Naughton, Bryan M. Hennelly, Bahram Javidi
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Proceedings Volume 6187, Photon Management II; 618716 (2006) https://doi.org/10.1117/12.662798
Event: SPIE Photonics Europe, 2006, Strasbourg, France
Abstract
We investigate the application of Independent Component Analysis to the reduction of speckle in reconstructions from digital holograms. Independent Component Analysis computes a linear transformation of a multidimensional distribution that minimizes the statistical dependence between components. It can be seen as an extension of Principal Component Analysis where the transformed bases do not need to be orthonormal. We attempt speckle reduction across multiple hologram reconstructions. A number of situations are investigated, including recording two holograms over the interval of a day, changing the illumination between two holograms and adding a diffuser in the path of the object beam between subsequent hologram captures. This ensured significant speckle differences between the observations. Results are provided using simulated and optical data.
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Jonathan Maycock, Conor P. McElhinney, John B. McDonald, Thomas J. Naughton, Bryan M. Hennelly, and Bahram Javidi "Speckle reduction in digital holography using independent component analysis", Proc. SPIE 6187, Photon Management II, 618716 (25 April 2006); https://doi.org/10.1117/12.662798
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KEYWORDS
Independent component analysis
Speckle
Digital holography
Holograms
Speckle pattern
Interference (communication)
Digital filtering
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