INTERPOLATION-BASED OBJECT DECOMPOSITION AND PARALLEL COMPUTATION METHOD FOR LARGE-SCALE COMPUTER-GENERATED HOLOGRAM

机译：基于插值的对象分解与大规模计算机生成全息图的并行计算方法

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Computer Generated Holography (CGH) is considered a promising candidate for realizing 3D display with complete depth features. However, the realization of a large-scale CGH requires a huge computation time. This paper proposes a method for decomposing an input object into sub-objects and generating sub-holograms from them utilizing interpolation. The major advantage of this method is that the generation processes become mutually independent and can be executed in parallel without communication and synchronization. After presenting the theory of interpolation method, we will show how we can implement the method on GPU using data-parallel operations. We will also show the simulation and optical reconstruction results that verify the correctness of the method. Finally, we will present the preliminary results of our experiment by using GPU.

机译：计算机生成的全息术（CGH）被认为是一种具有完整深度特征的3D显示器的有希望的候选者。然而，大规模CGH的实现需要巨大的计算时间。本文提出了一种用于将输入对象分解为子对象并利用插值来生成子全息图。该方法的主要优点是生成过程变得相互独立，并且可以并行地执行而不进行通信和同步。在介绍插值方法的理论之后，我们将展示如何使用数据并行操作在GPU上实现方法。我们还将显示验证方法的正确性的模拟和光学重建结果。最后，我们将通过使用GPU提出我们的实验的初步结果。

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来源
《IASTED International Conference on Parallel and Distributed Computing and Networks》|2014年||共8页
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Takanobu Baba; Hiroaki Miyata; Boaz Jessie Jackin; Takeshi Ohkawa; Kanemitsu Ootsu; Takashi Yokota; Yoshio Hayasaki; Toyohiko Yatagai;
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中图分类 TP393-53;
关键词
Computer generated holography; Numerical diffraction calculation; Holographic displays; Data intensive computing; Object segmented CGH; GPU computing;

机译：计算机生成全息术;数值衍射计算;全息显示;数据密集计算;对象分段CGH;GPU计算;
入库时间 2022-08-21 05:12:23

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专利

1. Accelerated computation of computer-generated holograms of a 3-D object with N × N-point principle fringe patterns in the novel look-up table method [J] . Seung-Cheol Kim, Keun-Dol Na, Eun-Soo Kim Optics and Lasers in Engineering . 2013,第3期

机译：新型查找表方法加速计算具有N×N点主条纹图案的3-D对象的计算机生成全息图
2. An efficient computational method suitable for hardware of computer-generated hologram with phase computation by addition [J] . Tomoyoshi Shimobaba, Tomoyoshi Ito Computer physics communications . 2001,第1期

机译：一种适用于计算机生成全息图硬件的高效计算方法，通过相加来进行相位计算
3. Precalculation method using spherical basic object light for computer-generated hologram [J] . Kohei Hosoyachi, Kazuhiro Yamaguchi, Tsubasa Ichikawa, Applied optics . 2013,第1期

机译：利用球形基本物光对计算机生成的全息图进行预计算的方法
4. INTERPOLATION-BASED OBJECT DECOMPOSITION AND PARALLEL COMPUTATION METHOD FOR LARGE-SCALE COMPUTER-GENERATED HOLOGRAM [C] . Takanobu Baba, Hiroaki Miyata, Boaz Jessie Jackin, Proceedings of the IASTED international conferences on informatics . 2014

机译：大型计算机生成全息图的基于插值的对象分解和并行计算方法
5. IMPROVED SYNTHESIS AND COMPUTATIONAL METHODS FOR COMPUTER-GENERATED HOLOGRAMS. [D] . FIENUP, JAMES RAY -1

机译：计算机生成的全息图的改进的合成和计算方法。
6. Lensless Scheme for Measuring Laser Aberrations Based on Computer-Generated Holograms [O] . George Krasin, Michael Kovalev, Nikita Stsepuro, 2020

机译：基于计算机生成全息图测量激光像差的无透镜方案
7. Calculation method for computer-generated holograms with cylindrical basic object light by using a graphics processing unit [O] . Sakata, Hironobu, Hosoyachi, Kouhei, Yang, Chan-Young, 2011

机译：利用图形处理单元计算具有圆柱形基本物体光的计算机生成全息图的方法

INTERPOLATION-BASED OBJECT DECOMPOSITION AND PARALLEL COMPUTATION METHOD FOR LARGE-SCALE COMPUTER-GENERATED HOLOGRAM

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