Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
AIT, IDY, 3DMT, IIEEJ, IEICE-EID, IEE-EDD, VRSJ [detail] |
2022-11-25 15:50 |
Tokyo |
Hibiya Library & Museum (Primary: On-site, Secondary: Online) |
[Invited Talk]
Development of displays that bring a high sense of presence and its applications Yuji Nakahata, Tomoharu Nakamura, Koji Aoyama (Sony Group) |
There are several factors that must be considered in order to create video representations that bring a sense of presenc... [more] |
IDY2022-40 AIT2022-191 3DMT2022-67 pp.21-24 |
3DMT |
2022-10-17 14:30 |
Tochigi |
(Primary: On-site, Secondary: Online) |
Numerical verification of light-field wavefront conversion technique using zone plates with amplitude modulation Toshihiro Uruma, Takayuki Koyama, Yasuhiro Takaki (TUAT) |
We previously proposed a method of reconstruction blur-less three-dimensional (3D) image by light-field wavefront conver... [more] |
3DMT2022-43 pp.13-16 |
3DMT |
2022-10-18 14:30 |
Tochigi |
(Primary: On-site, Secondary: Online) |
Adaptation of point cloud representation to facial light field display and subjective evaluation Koichiro Fukano, Misato Shimizu (TUAT), Takaaki Kudo, Toshiki Yura, Tetsuya Murakami (IMAGICA), Yasuhiro Takaki (TUAT) |
To realize online communication that can convey emotions and feelings in the future, we have developed a light field dis... [more] |
3DMT2022-56 pp.65-68 |
3DMT |
2022-03-07 11:00 |
Online |
|
Design of Spatial Light Modulator for Holographic AR Glasses Ryo Higashida, Masato Miura, Yuta Yamaguchi, Nobuhiko Funabashi, Kenichi Aoshima, Kenji Machida (NHK) |
We have been developing spatial light modulators (SLMs) with a narrow pixel pitch and multiple pixels to improve the qua... [more] |
3DIT2022-10 pp.37-40 |
3DMT |
2022-03-07 13:55 |
Online |
|
Kirameki Display: the light field display that is specialized in texture representation and its application Naoki Sumi, Keiko Edo, Shuji Hagino (Innolux) |
Several types of light field displays have been developed and their functions are well known as binocular parallax, verg... [more] |
3DIT2022-17 pp.65-68 |
3DMT |
2022-03-07 14:10 |
Online |
|
Kirameki Display: the current situation of texture representation image/video capturing and generation and next challenges for the future Naoki Sumi, Keiko Edo, Shuji Hagino (Innolux) |
We have developed “Kirameki display” which is able to represent real texture of materials. And we have also investigated... [more] |
3DIT2022-18 pp.69-72 |
3DMT |
2022-03-07 16:45 |
Online |
|
Effects of resolution on showing facial expressions using light field display Koichiro Fukano, Misato Shimizu (TUAT), Takaaki Kudo, Toshiki Yura, Haruhiko Matsuo (IMAGICA), Yasuhiro Takaki (TUAT) |
In this study, we conducted subjective evaluations to investigate the effects of resolution on showing facial expression... [more] |
3DIT2022-24 pp.93-96 |
3DMT |
2021-10-19 11:35 |
Online |
Online |
Completion of 360-degree three-dimensional display using light field displays Koya Yamamoto (Tokyo Univ. of Agri. & Tech.), Yoshiharu Momonoi, Yoshihiro Yokote, Atsushi Sato (Samsung R&D Inst. Japan), Yasuhiro Takaki (Tokyo Univ. of Agri. & Tech.) |
We have previously proposed light field Mirage which consists of multiple tilted flat-panel light field displays (LFDs) ... [more] |
3DIT2021-37 pp.29-32 |
3DMT |
2021-10-19 16:00 |
Online |
Online |
Subjective evaluation of impressions of true-size display of facial expressions using light field display Koichiro Fukano, Misato Shimizu (TUAT), Takaaki Kudo, Toshiki Yura, Yasuhiko Matsuo (IMAGICA), Yasuhiro Takaki (TUAT) |
Based on experiences of our previous research, we assume that true-size 3D images of human faces displayed by the light ... [more] |
3DIT2021-45 pp.61-64 |
3DMT |
2021-03-08 14:30 |
  |
|
Enlargement of three-dimensional images of light field Mirage using eye-tracking technique Koya Yamamoto (Tokyo Univ. of Agri. & Tech.), Yoshiharu Momonoi, Yoshihiro Yokote, Atsushi Sato (Samsung R&D Inst. Japan), Yasuhiro Takaki (Tokyo Univ. of Agri. & Tech.) |
We have previously proposed the light field mirage which can provide 360-degree three-dimensional images. The system re... [more] |
3DIT2021-11 pp.45-48 |
3DMT |
2021-03-08 14:50 |
  |
|
Proposal of facial communication system using light field display. Koichiro Fukano, Misato Shimizu (TUAT), Takaaki Kudo, Koji Ichihashi (IMAGICA), Toshiki Yura (IMAGICA Lab.), Yasuhiro Takaki (TUAT) |
Light field displays can provide real emotional expressions in ways that 2D displays hardly do. We previously proposed t... [more] |
3DIT2021-12 pp.49-52 |
3DMT |
2020-10-20 10:15 |
Online |
Online |
Flipping-free light field mirage Koya Yamamoto (Tokyo Univ. of Agri. & Tech.), Yoshiharu Momonoi, Yoshihiro Yokote, Atsushi Sato (Samsung R&D Inst. Japan), Yasuhiro Takaki (Tokyo Univ. of Agri. & Tech.) |
We have previously proposed the light field mirage which can provide 360-degree three-dimensional images. The original m... [more] |
3DIT2020-17 pp.5-8 |
3DMT |
2020-10-20 10:30 |
Online |
Online |
Resolution measurements of light field display using virtual image mode. Koichiro Fukano, Motoki Ito (TUAT), Takaaki Kudo, Koji Ichihashi (IMAGICA), Yasuhiro Takaki (TUAT) |
We proposed the light field display using the virtual imaging mode to enlarge the viewing zone. While divergence of rays... [more] |
3DIT2020-18 pp.9-12 |
3DMT |
2020-10-20 15:05 |
Online |
Online |
A Super-Multiview Display by Time Division and Color Multiplexing with Achromatic Lenses Yuta Watanabe, Hideki Kakeya (Tsukuba Univ.) |
We measure the effect of achromatic lenses in place of conventional lenses to make dense light field based on time-divis... [more] |
3DIT2020-31 pp.61-64 |
IEICE-MRIS, MMS |
2020-10-05 16:55 |
Online |
Online |
Diffraction characteristics of a high-density domain wall motion type light modulation device array Ryo Higashida, Nobuhiko Funabashi, Ken-ichi Aoshima, Masato Miura, Kenji Machida (NHK) |
We have been developing a magneto-optical light modulator driven by current-induced domain wall motion for a holographic... [more] |
MMS2020-52 pp.33-36 |
IDY, IEICE-EID, IEIJ-SSL, SID-JC, IEE-EDD [detail] |
2019-01-25 11:15 |
Kagoshima |
|
[Poster Presentation]
Electro-optical resolution properties of ferroelectric liquid crystal for holographic displays Yoshitomo Isomae, Yosei Shibata, Takahiro Ishinabe, Hideo Fujikake (Tohoku Univ.) |
We conducted liquid crystal (LC) driving experiments of nematic LC (NLC) and ferroelectric LC (FLC) using small-pitch co... [more] |
IDY2019-20 pp.129-132 |
3DMT, IDY, IST [detail] |
2018-11-13 15:50 |
Kanagawa |
Shonan Institute of Technology |
Aerial image by retroreflective corner reflector array Takafumi Koike (Hosei Univ.), Yasushi Onishi (Optoceramics) |
We have developed a retroreflective optical device to realize a long-focus aerial imaging display with a long aerial ima... [more] |
IST2018-57 IDY2018-48 3DIT2018-27 pp.17-20 |
IEICE-EID, IDY, IEIJ-SSL, SID-JC, IEE-EDD [detail] |
2018-01-26 11:45 |
Shizuoka |
Shizuoka Univ., Hamamatsu |
Super high resolution liquid crystal driving experiments using nanoimprint-formed polymer shield walls Yoshitomo Isomae, Yosei Shibata, Takahiro Ishinabe, Hideo Fujikake (Tohoku Univ.) |
We have achieved light modulation of liquid crystal (LC) device with 1 μm pixel pitch for realizing electronic holograph... [more] |
IDY2018-12 pp.101-104 |
ME, IEICE-IE, IPSJ-AVM [detail] |
2017-08-03 13:20 |
Tokyo |
NHK Science & Technology Research Laboratories |
[Invited Talk]
3D Image Processing Based on Light-Field/Ray-Space Method
-- from Capture to Display -- Toshiaki Fujii (Nagoya Univ.) |
The Ray Space / Light Field is a technique to represent 3D visual scenes by using ‘light rays.’ The concept was proposed... [more] |
ME2017-86 p.19 |
3DMT, IDY |
2016-07-19 15:35 |
Osaka |
Osaka City University |
Omnidirectional three-dimensional display using multiple light field displays Saki Osafune, Aoi Fukuoka, Yusuke Minami, Kayo Yoshimoto, Hideya Takahashi (Osaka City Univ.) |
We propose the omnidirectional 3D display system using multiple light field 3D display units which consist of a liquid c... [more] |
IDY2016-26 3DIT2016-22 pp.21-24 |