Yuta Itoh

ALUMNI

2017-2020

Education

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筑波大学
情報学群 情報メディア創成学類 3年


University of Tsukuba
School of Informatics, College of Media Arts, Science and Technology
B3

Profile

1998年生まれ.
高校2年生のときにテレビで見た「Pixie Dust」をきっかけに研究に興味を持つ.筑波大学情報メディア創成学類に入学後,デジタルネイチャー研究室に共同研究生として加わる.光をどう扱うかということに興味を持つ.https://atuyoti.github.io/portfolio/

Yuta Itoh was born in 1998.
He was interested in research after saw research of “Pixie dust” on TV when he was a high school student. And he decided to aim for the way of the researcher. After entering College of Media Arts, Science, and Technology at the University of Tsukuba, he joined as a collaborative research student at the Digital Nature Group. His Research Theme is “How to control Light”. https://atuyoti.github.io/portfolio/

Mail:
atuyoti [at] digitalnature.slis.tsukuba.ac.jp

Takahito Aoto, Yuta Itoh, Kazuki Otao, Kazuki Takazawa, and Yoichi Ochiai. 2019. A Design for Optical Cloaking Display. In Proceedings of SIGGRAPH ’19 Emerging Technologies. ACM, New York, NY, USA, 2 pages. https://doi.org/10.1145/3305367.3327979

Yuta Itoh, Kenta Yamamoto, and Yoichi Ochiai. 2018. Retinal HDR: HDR Image Projection Method onto Retina. In Proceedings of SA ’18 Posters, Tokyo, Japan, December 04-07, 2018, 2 pages. https://doi.org/10.1145/3283289.3283329

Yoichi Ochiai, Kazuki Otao, Yuta Itoh, Shouki Imai, Kazuki Takazawa, Hiroyuki Osone, Atsushi Mori, and Ippei Suzuki. 2018. Make your own Retinal Projector: Retinal Near-Eye Displays via Metamaterials. In SIGGRAPH ’18 Posters (SIGGRAPH ’18). ACM, New York, NY, USA, 2 pages. DOI: https://doi.org/10.1145/3230744.3230810

Yoichi Ochiai, Kazuki Otao, Yuta Itoh, Shouki Imai, Kazuki Takazawa, Hiroyuki Osone, Atsushi Mori, and Ippei Suzuki. 2018. Make your own Retinal Projector: Retinal Near-Eye Displays via Metamaterials. In SIGGRAPH ’18 Emerging Technologies (SIGGRAPH ’18). ACM, New York, NY, USA, 2 pages. DOI: https://doi.org/10.1145/3214907.3214910

Kazuki Otao, Yuta Itoh, Kazuki Takazawa, Hiroyuki Osone, and Yoichi Ochiai. 2018. Transmissive Mirror Device based Near-Eye Displays with Wide Field of View. In SIGGRAPH ’18 Emerging Technologies (SIGGRAPH ’18). ACM, New York, NY, USA, 2 pages. DOI: https://doi.org/10.1145/3214907.3214908

Kazuki Otao, Yuta Itoh, Kazuki Takazawa, Hiroyuki Osone, and Yoichi Ochiai. 2018. Air Mounted Eyepiece: Optical See-Through HMD Design with Aerial Optical Functions. In Proceedings of the 9th Augmented Human International Conference (AH ’18). ACM, New York, NY, USA, Article 1, 7 pages. DOI: https://doi.org/10.1145/3174910.3174911

Naoya Muramatsu, Chun Wei Ooi, Yuta Itoh, and Yoichi Ochiai. 2017. DeepHolo: recognizing 3D objects using a binary-weighted computer-generated hologram. In SIGGRAPH Asia 2017 Posters (SA ’17). ACM, New York, NY, USA, Article 29, 2 pages. DOI: https://doi.org/10.1145/3145690.3145725

Kazuki Otao, Yuta Itoh, Hiroyuki Osone, Kazuki Takazawa, Shunnosuke Kataoka, and Yoichi Ochiai. 2017. Light field blender: designing optics and rendering methods for see-through and aerial near-eye display. In SIGGRAPH Asia 2017 Technical Briefs (SA ’17). ACM, New York, NY, USA, Article 9, 4 pages. DOI: https://doi.org/10.1145/3145749.3149425

伊藤優太(個人). JASSO 2019年度優秀学生顕彰 大賞(学術分野). 2019.11.18. https://www.jasso.go.jp/about/organization/kensyo/result/2019.html

注目の網膜投影技術 落合陽一氏らが開発した実機を体験, https://www.moguravr.com/dng-retinal-projector/ , Mogura VR, 2018-08-25.

【SIGGRAPH2018】先端技術コーナーを一挙レポ 日本からも多数出展, https://www.moguravr.com/siggraph-2018-e-tech-report-ar-vr/ , Mogura VR, 2018-08-23.

筑波大学ら、網膜に画像を直接投影することで、現実空間と仮想オブジェクトの調和を実現する透過型ミラーデバイスを用いたレーザ投影システムを発表, https://shiropen.com/seamless/make-your-own-retinal-projector, Seamless, 2018-06-20.

落合陽一氏ら、AR向け技術を続々発表 キーワードは広視野・透過型, http://www.moguravr.com/pixiedusttech-ar/ , Mogura VR, 2017-11-24.

ピクシーダストテクノロジーズとデジタルネイチャーグループ、透過型ミラーデバイスを用いたAR向け広視野シースルーHMD実現方式を論文にて発表。ボケの再現などを可能に, http://shiropen.com/2017/11/22/29800, Seamless, 2017-11-22.

筑波大デジタルネイチャーグループら、新しい空中映像表示技術「Air Mounted Eyepiece」発表, http://panora.tokyo/43491/ , PANORA VR, 2017-10-30.

筑波大学(Digital Nature Group)、広視野角の光学シースルーHMDを実現するための新手法「AME」を論文にて発表。VRクオリティを空中で再現, http://shiropen.com/2017/10/27/29009, Seamless, 2017-10-27.