Yuta Itoh

COLLABORATE STUDENTS

共同研究学生

Education

筑波大学
情報学群 情報メディア創成学類 2年


University of Tsukuba
School of Informatics, College of Media Arts, Science and Technology
B2

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・触覚・人工知能など,幅広い分野に興味を持つ.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. He is interested in a wide range of fields such as optics, light field, haptics and artificial intelligence. https://atuyoti.github.io/portfolio/

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

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 (to appear)

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 (to appear)

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 (to appear)

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

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.