Title :
Noncontact Tactile Display Based on Radiation Pressure of Airborne Ultrasound
Author :
Hoshi, Takayuki ; Takahashi, Masafumi ; Iwamoto, Takayuki ; Shinoda, Hiroyuki
Author_Institution :
Grad. Sch. of Sci. & Technol., Kumamoto Univ., Kumamoto, Japan
Abstract :
This paper describes a tactile display which provides unrestricted tactile feedback in air without any mechanical contact. It controls ultrasound and produces a stress field in a 3D space. The principle is based on a nonlinear phenomenon of ultrasound: Acoustic radiation pressure. The fabricated prototype consists of 324 airborne ultrasound transducers, and the phase and intensity of each transducer are controlled individually to generate a focal point. The DC output force at the focal point is 16 mN and the diameter of the focal point is 20 mm. The prototype produces vibrations up to 1 kHz. An interaction system including the prototype is also introduced, which enables users to see and touch virtual objects.
Keywords :
acoustic radiators; computer displays; haptic interfaces; radiation pressure; virtual reality; 3D space; acoustic radiation pressure; airborne ultrasound radiation pressure; airborne ultrasound transducers; interaction system; mechanical contact; noncontact tactile display; size 20 mm; stress field; virtual objects; virtual reality; Acoustic transducers; Displays; Feedback; Nonlinear acoustics; Prototypes; Stress control; Ultrasonic imaging; Ultrasonic transducers; Vibrations; Virtual prototyping; 3D displays; Emerging technologies; haptic I/O; tactile displays; virtual reality.;
Journal_Title :
Haptics, IEEE Transactions on
