73‐3: Super Multi‐View 3D Display with Reduced Accommodation‐Vergence Conflict using the Holographic Method | Zendy

Song Hoon | Zendy; Seo Wontaek | Zendy; An Jungkwuen | Zendy; Seo Juwon | Zendy; Sung Geeyoung | Zendy; Choi Chil-Sung | Zendy; Kim Sunil | Zendy; Kim Hojung | Zendy; Kim Yunhee | Zendy; Kim Yun-Tae | Zendy; Kim Young | Zendy; Kim Yongkyu | Zendy; Lee Hong-Seok | Zendy; Hwang Sungwoo | Zendy

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73‐3: Super Multi‐View 3D Display with Reduced Accommodation‐Vergence Conflict using the Holographic Method

Author(s) -

Song Hoon,

Seo Wontaek,

An Jungkwuen,

Seo Juwon,

Sung Geeyoung,

Choi Chil-Sung,

Kim Sunil,

Kim Hojung,

Kim Yunhee,

Kim Yun-Tae,

Kim Young,

Kim Yongkyu,

Lee Hong-Seok,

Hwang Sungwoo

Publication year - 2016

Publication title -

sid symposium digest of technical papers

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.351

H-Index - 44

eISSN - 2168-0159

pISSN - 0097-966X

DOI - 10.1002/sdtp.10896

Subject(s) - accommodation , stereo display , vergence (optics) , computer science , focus (optics) , liquid crystal display , artificial intelligence , computer vision , holographic display , holography , computer graphics (images) , optics , physics , operating system

Novel 3D display architecture and algorithm are proposed and demonstrated Full HD 3D image with reduced accommodation‐vergence conflict using limited computing power and a conventional LCD panel. The proposed 3D display architecture is integrated with a commercial 5.5” Full HD LCD panel and the used algorithm needs remarkably lower computing power than a conventional CGH algorithm based on Fresnel transformation. The experimental results show the accommodation depth cue which provides a clear 3D image only on focus position.

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