Magnetic haptic printing technology|NTT R&D Website
Laboratories Overview Magnetact magnetic haptic technology is a haptic interface technique that presents a
https://www.rd.ntt/e/research/CS0038.html
スライド 1
Magnetizing method ・Haptic texture book ・Haptic interface Expand tactile experiences to toys, books, walls
https://www.rd.ntt/cs/event/openhouse/2018/exhibition/29/poster_en_29.pdf
rdf17-5e.pdf
, which provides natural haptic communication Features ■ Natural human-interface configuration of Buru
https://www.rd.ntt/e/nttdtc/theme/pdf/2017/rdf/rdf17-5e.pdf
Yusuke Ujitoko | NTT R&D Website
.1109/TOH.2019.2954882. Keywords Haptic engineering, Haptic science, User interface, Human Science More
https://www.rd.ntt/e/organization/researcher/special/s_066.html
Presenting Material Properties with Mid-air Pseudo-haptics|NTT R&D Website
. Lécuyer, J.-M. Burkhardt, and L. Etienne, "Feeling Bumps and Holes without a Haptic Interface: the
https://www.rd.ntt/e/research/JN202101_9679.html
Kentaro Yasu | NTT R&D Website
://doi.org/10.1145/3025453.3025702 Keywords HCI (Human-Computer Interaction), haptic interface, magnet
https://www.rd.ntt/e/organization/researcher/special/s_037.html
安 謙太郎 | NTT R&D Website
/3025453.3025702 技術キーワード HCI (Human-Computer Interaction), haptic interface, magnet, rapid prototyping
https://www.rd.ntt/organization/researcher/special/s_037.html
Toward Cyber-physical Interaction for Natural Connection of Real Space and Cyberspace|NTT R&D Website
and using human abilities to the maximum extent. We believe that the user interface will play an even
https://www.rd.ntt/e/research/JN202101_9651.html
NTT Communication Science Laboratories Open House 2019
inducing a sensation of walking. References [1] Tomohiro Amemiya, “Haptic Interface Technologies Using
https://www.rd.ntt/cs/event/openhouse/2019/exhibition30/index_en.html
NTT コミュニケーション科学基礎研究所 オープンハウス2019
, 2017. [3] Tomohiro Amemiya, “Haptic Interface Technologies Using Perceptual Illusions,” in Proc. 20th
https://www.rd.ntt/cs/event/openhouse/2019/exhibition30/
Remote Robot Control with Haptic Feedback Enabled by Low-latency Transport and Precision Bilateral Control Technologies | NTT R&D Website
Remote Robot Control with Haptic Feedback Enabled by Low-latency Transport and Precision Bilateral
https://www.rd.ntt/e/research/JN202405_26175.html
スライド 1
, Human Information Laboratory [1] Tomohiro Amemiya, “Haptic Interface Technologies Using Perceptual
https://www.rd.ntt/cs/event/openhouse/2019/download/30_d_en.pdf
スライド 1
-141, 2017. [3] Tomohiro Amemiya, “Haptic Interface Technologies Using Perceptual Illusions,” in Proc
https://www.rd.ntt/cs/event/openhouse/2019/download/30_d.pdf
Transmitting directional force sensation by illusion|NTT R&D Website
directions. Advantages of this technology Ungrounded haptic interface based on the nonlinear perceptual
https://www.rd.ntt/e/research/CS0001.html
Cybernetics | NTT R&D Website
Haptic Feedback. In Proceedings of the 2025 CHI Conference on Human Factors in Computing Systems (CHI '25
https://www.rd.ntt/e/hil/category/cybernetics/
Human Information Science Laboratory | NTT Communication Science Laboratories | NTT R&D Website
Group Sensory Representation Research Group Sensory Interface Research Group Embodied Intelligence
https://www.rd.ntt/e/cs/team_project/human/
Magnetact Technology Based on Magnetic Forces with No Power Supply toward Tactile Presentation | NTT R&D Website
after completing this technology, I conducted research on a technique for creating a haptic interface
https://www.rd.ntt/e/research/JN202305_21931.html
サイバネティックス | NTT R&D Website
Shindo, and Ryosuke Aoki. 2025. Invisible Light Touch: Standing Balance Improvement by Mid-Air Haptic
https://www.rd.ntt/hil/category/cybernetics/
Wireless Technology Supporting People to Live a Fulfilling Social Life | NTT R&D Website
interface as an approach to reduce latency was not implemented. Thus, we have achieved low latency by
https://www.rd.ntt/e/research/JN202408_28848.html
人間情報研究部|NTTコミュニケーション科学基礎研究所|NTT R&D Website
Hiroyuki Shinoda, “Ultrasound-Driven Wearable Haptic Display for Rendering Edges and Curved Surfaces,” IEEE
https://www.rd.ntt/cs/team_project/human/
Achieving IOWN/6G and Creating New Value with World-leading Technologies | NTT R&D Website
telecommunication carrier facilities. By advancing the standardization of the monitoring and control interface, we
https://www.rd.ntt/e/research/JN202405_26173.html
Standardization Trends Related to Application- and Service-related Technologies | NTT R&D Website
: MPEG Coding of 3D Graphics and Haptics WG 7 standardizes codecs for point clouds, haptic data, and
https://www.rd.ntt/e/research/JN202311_23708.html
Updates | NTT R&D Website
12/04/2023 Scientific Understanding of the Desire to Touch and Haptic Presentation Methods Based on
https://www.rd.ntt/e/update_information/
Creating a Map or Encyclopedia That Anyone Can Use in Tactile Experience Design | NTT R&D Website
"design," we typically imagine the appearance and functions of a product or the design of a user interface
https://www.rd.ntt/e/research/JN202502_32094.html
2020_booklet_en.pdf
and pupil 25. Haptic metameric textures - Direct control of perceived texture of 3D printed stimuli 26
https://www.rd.ntt/cs/event/openhouse/2020/download/2020_booklet_en.pdf
oh2017_booklet.pdf
. Moriya, “Tactile phantom sensation for coaching respiration timing,” IEEE Trans. Haptic, Vol. 8, No. 1
https://www.rd.ntt/cs/event/openhouse/2017/download/oh2017_booklet.pdf
2019_booklet.pdf
https://www.rd.ntt/cs/event/openhouse/2019/download/2019_booklet.pdf
前へ
次へ