Speckle noise reduction for computer generated holograms of objects with diffuse surfaces

Symeonidou, Athanasia; Blinder, David; Ahar, Ayyoub; Schretter, Colas; Munteanu, Adrian; Schelkens, Peter

doi:10.1117/12.2225201

Cited by 13 publications

(16 citation statements)

References 17 publications

(19 reference statements)

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“…The sources of 2D holograms are two-dimensional images, while the sources of three-dimensional samples are point clouds. The generation algorithm has been improved in [59], including, in addition to occlusion, the simulation of diffuse light reflection from surfaces: the light is spread over a wide angle, providing an extended view of the scene with full parallax support. This dataset is called Interfere II and includes 6 diffuse and 6 specular monochromatic samples, generated from point clouds.…”

Section: Digital Hologram Reference Datasetsmentioning

confidence: 99%

Recent Advances in the Processing and Rendering Algorithms for Computer-Generated Holography

et al. 2019

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Digital holography represents a novel media which promises to revolutionize the way the users interacts with content. This paper presents an in-depth review of the state-of-the-art algorithms for advanced processing and rendering of computer-generated holography. Open-access holographic data are selected and characterized as references for the experimental analysis. The design of a tool for digital hologram rendering and quality evaluation is presented and implemented as an open-source reference software, with the aim to encourage the approach to the holography research area, and simplify the rendering and quality evaluation tasks. Exploration studies focused on the reproducibility of the results are reported, showing a practical application of the proposed architecture for standardization activities. A final discussion on the results obtained is reported, also highlighting the future developments of the reconstruction software that is made publicly available with this work.

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Section: Digital Hologram Reference Datasetsmentioning

confidence: 99%

Recent Advances in the Processing and Rendering Algorithms for Computer-Generated Holography

et al. 2019

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“…The first sample belongs to the Interfere II dataset. As suggested by the authors in [50], the observation window has resolution of 2048×2048, and it is apodized using a 2-D Hanning window before the reconstruction process. In order to reduce the speckle noise, the final image is the average of three reconstructions performed at three different wavelengths (633nm, 632.9nm, and 633.1nm).…”

Section: A Test Modalities and Datasetsmentioning

confidence: 99%

“…The dataset Interfere II [50] presents holograms created using a method that supports occlusion and simulation of diffuse reflection from surfaces. All the holograms are monochromatic, generated from point clouds.…”

Section: A Test Modalities and Datasetsmentioning

confidence: 99%

Digital holography data compression

Corda¹

2019

Telfor J

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Digital holography processing is a research topic related to the development of novel visual immersive applications. The huge amount of information conveyed by a digital hologram and the different properties of holographic data with respect to conventional photographic data require a comprehension of the performances and limitations of current image and video standard techniques. This paper proposes an architecture for objective evaluation of the performances of the state-of-the-art compression techniques applied to digital holographic data.

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“…To account for diffuse reflections, the spectral response of the look-up table content is modified with random phase, as described in Ref. 16, so that light is scattered over a wide angular range and consequently provides with a wide field of view. Inverted Gaussian filters are used in the propagation process to model occlusions by locally blocking light.…”

Section: Generation Of Holographic Dataset From Point Cloudsmentioning

confidence: 99%

“…The extracted aperture from the hologram can produce aperture diffraction during numerical reconstruction, due to the sharp intensity edges of the rectangular aperture, therefore apodization is proposed 19,16 . This method smoothly brings the aperture edges to zero, as it suppresses side lobes leakage which would otherwise be produced upon propagation.…”

Section: Suppression Of Aperture Diffractionmentioning

confidence: 99%

Three-dimensional rendering of computer-generated holograms acquired from point-clouds on light field displays

Symeonidou

Blinder

Ceulemans

et al. 2016

Applications of Digital Image Processing XXXIX

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Holograms, either optically acquired or simulated numerically from 3D datasets, such as point clouds, have special rendering requirements for display. Evaluating the quality of hologram generation techniques is not straightforward, since high-quality holographic display technologies are still immature, In this paper we present a framework for three-dimensional rendering of colour computer-generated holograms (CGHs) acquired from point-clouds, on high-end light field displays. This allows for the rendering of holographic content with horizontal parallax and wide viewing angle. We deploy prior work, namely a fast CGH method that inherently handles occlusion problems to acquire high quality colour holograms from point clouds. Our experiments showed that rendering holograms with the proposed framework provides 3D effect with depth disparity and horizontal-only with wide viewing angle. Therefore, it allows for the evaluation of CGH techniques regarding functional properties such as depth cues and efficient occlusion handling.

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Speckle noise reduction for computer generated holograms of objects with diffuse surfaces

Cited by 13 publications

References 17 publications

Recent Advances in the Processing and Rendering Algorithms for Computer-Generated Holography

Recent Advances in the Processing and Rendering Algorithms for Computer-Generated Holography

Digital holography data compression

Three-dimensional rendering of computer-generated holograms acquired from point-clouds on light field displays

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