Bidirectional Remote Tactile Transmission AI System Using Ultrathin Haptic MEMS
Author:
Affiliation:
1. National Institute of Advanced Industrial Science and Technology (AIST)
Publisher
Japan Institute of Electronics Packaging
Link
https://www.jstage.jst.go.jp/article/jiep/27/2/27_192/_pdf
Reference10 articles.
1. 1) K. Ebina and T. Hachisu: "Interpersonal Vibrotactile Phantom Sensation between Hands via Actuated Bracelets," 2023 IEEE World Haptics Conference (WHC), Delft, Netherlands, 2023, pp. 28–33, doi: 10.1109/WHC56415.2023.10224432
2. 2) N. Matsuyama, S. Matsuda, and T. Hachisu: "Can Facial Expressions Induce Haptic Perception?," IEEE Transactions on Haptics, doi: 10.1109/TOH.2023.3275657
3. 3) T. Takeshita, T. Yamashita, T. Tsubakimoto, H. Nishio, H. Okuno, T. Ohzawa, and T. Kobayashi: "Development of flexible haptic device based on ultra-thin PZT/silicon vibrator array," Proceeding of MEMS 2021, pp. 127–131, 2021
4. 4) T. Yamashita, S. Takamatsu, H. Okada, T. Itoh, and T. Kobayashi: "Ultrathin Piezoelectric Strain Sensor Array Integrated on Flexible Printed Circuit Involving Transfer Printing Methods," IEEE Sensors Journal, Vol. 16, pp. 8840–8846, 2016
5. 5) T. Takeshita, T. V. Nguyen, Z. Daniel, Y. Takei, and T. Kobayashi: "Mechanical characteristics of laminated film vibrator using an ultra-thin MEMS actuator," J. Micromech. Microeng., Vol. 32, 105001, 2022
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