| Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
| 3DMT |
2026-03-04
14:50 |
Tokyo |
Tokyo University of Agriculture and Technology
(Primary: On-site, Secondary: Online) |
Development of Ultra-thin Laser Backlight Using Center HOE Structure for Holographic Contact Lens Display
Yuto Hayashi, Fuma Hirata, Yasuhiro Takaki (TUAT) |
We developed two types of ultra-thin laser backlights using double-sided and single-sided Holographic Optical Element (H... [more] |
3DMT2026-22
pp.86-89 |
| 3DMT |
2025-10-22
13:30 |
Tokyo |
(Primary: On-site, Secondary: Online) |
Improvement of image recognition accuracy of contact lens camera based on distributed single-pixel imaging using deep learning
Hanano Tanaka, Yasuhiro Takaki (TUAT) |
We have previously proposed a low-energy consumption contact lens camera based on the distributed single-pixel imaging, ... [more] |
3DMT2025-37
pp.17-20 |
| SMC |
2025-07-25
14:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg.
(Primary: On-site, Secondary: Online) |
Design and Fabrication of an Ultra-thin Laser Backlight with Under 0.1-mm Thickness for Holographic Contact Lens Display
Yuto Hayashi, Fuma Hirata, Yasuhiro Takaki (TUAT) |
We have proposed an ultra-thin laser backlight which illuminates a spatial light modulator used in holographic contact l... [more] |
|
| 3DMT |
2025-03-13
10:55 |
Ibaraki |
Univ. of Tsukuba
(Primary: On-site, Secondary: Online) |
Development of Ultra-Thin Laser Backlight for Holographic Contact Lens Display
Yuto Hayashi, Fuma Hirata, Yasuhiro Takaki (TUAT) |
We have previously proposed an ultra-thin laser backlight used for the illumination of a spatial light modulators in ho... [more] |
3DMT2025-2
pp.5-8 |
| 3DMT |
2025-03-13
16:30 |
Ibaraki |
Univ. of Tsukuba
(Primary: On-site, Secondary: Online) |
Gaze tracking using contact lens camera based on distributed single-pixel imaging technique
Youjia Gu, Yasuhiro Takaki (TUAT) |
We previously proposed an ultra-low power contact lens camera based on the distributed single-pixel imaging. In this stu... [more] |
3DMT2025-13
pp.49-52 |
| 3DMT |
2024-10-29
10:25 |
Tokyo |
(Primary: On-site, Secondary: Online) |
Designing of an ultra-thin laser backlight embedded in a holographic contact lens display
Fuma Hirata, Yuto Hayashi, Yasuhiro Takaki (TUAT) |
We previously proposed a holographic image generation technique for contact lens displays.In this study,we develop an ul... [more] |
3DMT2024-59
pp.5-8 |
| 3DMT |
2024-10-29
13:35 |
Tokyo |
(Primary: On-site, Secondary: Online) |
Consideration of fingertip input using contact lens camera based on distributed single-pixel imaging
Youjia Gu, Yasuhiro Takaki (TUAT) |
We previously proposed a low-power contact lens camera using distributed single-pixel imaging. To be used in combination... [more] |
3DMT2024-64
pp.25-28 |
| 3DMT |
2024-06-27
15:25 |
Tokyo |
|
[Invited Talk]
*
Haruki Mizushina (Tokushima Univ. /Shinshu Univ.) |
Holographic contact lens displays has been proposed as an AR (augmented reality) technology to take full advantage of Be... [more] |
3DMT2024-30
pp.37-43 |
| 3DMT |
2024-03-15
13:50 |
Tokyo |
(Primary: On-site, Secondary: Online) |
Resolution evaluation of see-through image of holographic contact lens display
Youjia Gu, Yasuhiro Takaki (TUAT) |
We have proposed a holographic contact lens which can produce focusable images for eyes by displaying hologram patterns ... [more] |
3DMT2024-21
pp.81-84 |
| 3DMT |
2023-03-06
11:00 |
Tokyo |
(Primary: On-site, Secondary: Online) |
Increase of field of view of hologram contact lens using spherical wave illumination
Youjia Gu, Yasuhiro Takaki (TUAT) |
We previously proposed a holographic contact lens which can produce focusable images for eyes by displaying hologram pat... [more] |
3DMT2023-4
pp.13-16 |
| 3DMT |
2022-10-17
14:15 |
Tochigi |
(Primary: On-site, Secondary: Online) |
Experimental evaluation of see-through properties of holographic contact lens display
Youjia Gu, Yasuhiro Takaki (TUAT) |
We previously proposed a holographic contact lens which can produce focusable images for eyes by displaying hologram pat... [more] |
3DMT2022-42
pp.9-12 |