“Mid-air Thermal Display via High-intensity Ultrasound” by Kamigaki, Suzuki and Shinoda
Conference:
Experience Type(s):
Title:
- Mid-air Thermal Display via High-intensity Ultrasound
Organizer(s)/Presenter(s):
Description:
Our system can display both heating and cooling sensations for hand via high-intensity airborne ultrasound.
References:
[1] M. Arai, K. Terao, T. Suzuki, F. Simokawa, F. Oohira, and H. Takao. 2012. Air-flow based multifunctional tactile display device with multi-jet integrated micro venturi nozzle array. In 2012 IEEE 25th International Conference on Micro Electro Mechanical Systems (MEMS). IEEE, 148–151.
[2] Seki Inoue, Yasutoshi Makino, and Hiroyuki Shinoda. 2016. Scalable architecture for airborne ultrasound tactile display. In International AsiaHaptics conference. Springer, 99–103.
[3] Takaaki Kamigaki, Shun Suzuki, and Hiroyuki Shinoda. 2020. Noncontact Thermal and Vibrotactile Display Using Focused Airborne Ultrasound. In International Conference on Human Haptic Sensing and Touch Enabled Computer Applications. Springer, 271–278.
[4] Richard A Meyer, Ronald E Walker, and Vernon B Mountcastle. 1976. A laser stimulator for the study of cutaneous thermal and pain sensations. IEEE transactions on biomedical engineering1 (1976), 54–60.
[5] M. Nakajima, K. Hasegawa, Y. Makino, and H. Shinoda. 2018. Remotely displaying cooling sensation via ultrasound-driven air flow. In 2018 IEEE Haptics Symposium (HAPTICS). 340–343.
[6] Satoshi Saga. 2015. HeatHapt Thermal Radiation-Based Haptic Display. In Haptic Interaction. Springer, 105–107.
[7] J. Xu, Y. Kuroda, S. Yoshimoto, and O. Oshiro. 2019. Non-contact Cold Thermal Display by Controlling Low-temperature Air Flow Generated with Vortex Tube. In 2019 IEEE World Haptics Conference (WHC). 133–138.
