Advanced depth-layering using a synthetic-depth map and deep neural network for real-world object-based holographic displays

We propose an advanced layering method for real-world object-based holographic displays, leveraging what we believe to be a novel synthetic-depth map and deep neural network. The proposed system aims to implement a holographic display that displays natural-like three-dimensional visualizations of re...

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Bibliographic Details
Published in:Optics express 2024-12, Vol.32 (26), p.47011
Main Authors: Amgalan, Tuvshinjargal, Wu, Hui-Ying, Erdenebat, Munkh-Uchral, Khuderchuluun, Anar, Kwon, Ki-Chul, Dashdondov, Khongorzul, Baasantseren, Ganbat, Sim, Dongkyu, Kim, Nam
Format: Article
Language:English
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Summary:We propose an advanced layering method for real-world object-based holographic displays, leveraging what we believe to be a novel synthetic-depth map and deep neural network. The proposed system aims to implement a holographic display that displays natural-like three-dimensional visualizations of real objects by enhancing data quantity and ensuring accurate depth layers. A simplified light-field image acquisition system combined with a deep neural network is employed to efficiently gather organized omnidirectional three-dimensional information from the object, achieving high quality while minimizing processing time. Subsequently, a novel high-accuracy synthetic-depth map containing data from both initial depth and position maps is estimated. Finally, the sub-holograms for each depth layer are generated and integrated as a single main hologram by encompassing comprehensive object information, which is displayed on the spatial light modulator of a holographic display system and illuminated by a coherent light source. Experimental results confirm the superiority of the proposed system, particularly demonstrating its effectiveness for objects with a wide depth range or multiple objects separated by considerable distances.
ISSN:1094-4087
1094-4087
DOI:10.1364/OE.542360