Holographically Printed Freeform Mirror Array for Augmented Reality Near-Eye Display

Jeong Jinsoo; Lee Chang-Kun; Lee Seungjae; Moon Seokil; Sung Geeyoung; Lee Hong-Seok; Lee Byounghyo

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Holographically Printed Freeform Mirror Array for Augmented Reality Near-Eye Display

机译：全拍印刷的自由镜阵列，用于增强现实近乎眼睛显示屏

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摘要

We propose augmented reality (AR) near-eye display using a holographically printed freeform mirror array. A wide depth of field AR system is implemented by the retinal projection via a small mirror array. Since we use a holographic mirror array, more advantages over a traditional physical mirror array are achieved. Due to the see-through characteristics of the holographic optical element (HOE), the array structure does not obstruct the sight of an observer. Also, the holographic printing technique for the freeform mirror array enables a wide depth of field system without using a floating lens and compensates for the astigmatism of the HOE. The detailed design method of the freeform mirror array HOE is presented. Through the retinal image simulations and the experimental results, the feasibility of the proposed method is verified.

机译：我们使用全部印刷的自由镜阵列提出增强现实（AR）近乎眼镜。广泛的景深AR系统由通过小镜子阵列的视网膜投影来实现。由于我们使用全息镜阵列，因此实现了传统物理镜像阵列的更多优点。由于全息光学元件（锄头）的透视特性，阵列结构不会妨碍观察者的视觉。而且，用于自由镜阵列的全息印刷技术使得能够宽深度的现场系统，而不使用浮动镜头并补偿锄头的散光。提出了自由形式镜阵列锄头的详细设计方法。通过视网膜图像模拟和实验结果，验证了所提出的方法的可行性。

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来源
《IEEE Photonics Technology Letters》 |2020年第16期|991-994|共4页
作者
Jeong Jinsoo; Lee Chang-Kun; Lee Seungjae; Moon Seokil; Sung Geeyoung; Lee Hong-Seok; Lee Byounghyo;
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作者单位

Seoul Natl Univ Sch Elect & Comp Engn Seoul 08826 South Korea;

Samsung Elect Samsung Adv Inst Technol Multimedia Proc & Ab Suwon 16678 South Korea;

Seoul Natl Univ Sch Elect & Comp Engn Seoul 08826 South Korea;

Samsung Elect Samsung Adv Inst Technol Multimedia Proc & Ab Suwon 16678 South Korea;

Samsung Elect Samsung Adv Inst Technol Multimedia Proc & Ab Suwon 16678 South Korea;

Samsung Elect Samsung Adv Inst Technol Multimedia Proc & Ab Suwon 16678 South Korea;

Seoul Natl Univ Sch Elect & Comp Engn Seoul 08826 South Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
holography; holographic optical components; augmented reality; displays;

机译：全息;全息光学元件;增强现实;显示;

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专利

1. Holographic Near-Eye Displays for Virtual and Augmented Reality [J] . ANDREW MAIMONE, ANDREAS GEORGIOU, JOEL S. KOLLIN ACM Transactions on Graphics . 2017,第4CD期

机译：虚拟和增强现实的全息近眼显示器
2. Holographic display for see-through augmented reality using mirror-lens holographic optical element [J] . Li Gang, Lee Dukho, Jeong Youngmo, Optics Letters . 2016,第11期

机译：使用镜透镜全息光学元件的透视增强现实的全息显示器
3. Dual-focal-plane augmented reality head-up display using a single picture generation unit and a single freeform mirror [J] . Qin Zong, Lin Shih-Ming, Lu Kuang-Tso, Applied optics . 2019,第20期

机译：双重焦面增强现实抬头显示使用单个图片生成单元和单个自由镜像
4. Customizing holographic optical element for near-eye augmented reality display using holographic printer [C] . Byoungho Lee, Jinsoo Jeong 日本光学会;日本光学会年次学術講演会 . -1

机译：使用全息打印机定制用于近眼增强现实显示的全息光学元件
5. Evaluating the Performance of Augmented Reality in Displaying 3D Holographic Models Derived from MR Techniques [D] . Chang, Frank. 2018

机译：在显示源自MR技术的3D全息模型中评估增强现实的性能
6. Augmented reality near-eye display using Pancharatnam-Berry phase lenses [O] . Seokil Moon, Chang-Kun Lee, Seung-Woo Nam, -1

机译：使用Pancharatnam-Berry相位透镜的增强现实近眼显示器
7. Augmented reality near-eye display using Pancharatnam-Berry phase lenses [O] . Seokil Moon, Chang-Kun Lee, Seung-Woo Nam, 2019

机译：使用Pancharatnam-Berry相位镜头增强现实近乎眼睛显示器

Holographically Printed Freeform Mirror Array for Augmented Reality Near-Eye Display

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