research topics– category –

New technologies of haptic interfaces. Midair Haptics research: Symmetric telexistence by 3D haptic & optical hologram (Hptoclone) 2015 Ultrasonic 3D Haptic Hologram 2015 Aerial touch panel with haptic feedback (HaptoMime)  2014...

Sorry, this entry is only available in Japanese.

HaptoCloneAR: mutual haptic-optic interactive system with 2D image superimpose Kentaro Yoshida, Yuuki Horiuchi, Seki Inoue, Yasutoshi Makino, and Hiroyuki Shinoda. 2017. HaptoCloneAR: mutual haptic-optic interactive system with 2D image ...

↓First person view of tennis playing ↓Back view of tennis playing Fig1. Viewers can sometimes imagine how the vibrotactile stimuli are in the video. 図2. Video viewing improved by VibVid system. Kentaro Yoshida, Seki Inoue, Yasutoshi Mak...

We propose a machine learning-based system named "Computational Foresight" that can forecast human body motion 0.5 seconds before the actual motion in real-time. This forecasting system can be used to estimate human gestures in advance t...

Sorry, this entry is only available in Japanese.

Sorry, this entry is only available in Japanese.

Airborne ultrasound can produce pressure and temperature distribution on a skin. Haptics based on such a non-contact haptic stimulation is called "Midair Haptics." The Details are here. Haptoclone and Midair haptic touch-panel  Mani...

https://www.youtube.com/watch?v=v0F5Mp1pvMY We propose Hopping-Pong changing the trajectory of a moving ping-pong ball by using a non-contact ultrasound force. There are many previous researches controlling a real object using a com...

We propose a system that can remotely change the friction feel of the polystyrene foam surface using an Airborne Ultrasound Tactile Display (AUTD). In previous studies, the superficial friction of an object is mainly controlled by ultras...