Title :
AudioHaptics: audio and haptic rendering based on a physical model
Author :
Yano, Hiroaki ; Igawa, Hiromi ; Kameda, Toshihiro ; Muzutani, Koichi ; Iwata, Hiroo
Author_Institution :
Tsukuba Univ., Japan
Abstract :
In this paper, we propose a method for the synthesis of haptic and auditory senses that is based on a physical model called AudioHaptics. We have developed a haptic environment that incorporates auditory sensation. We achieved this by fitting a speaker at the end effecter of a haptic interface. The FEM (finite element method) was used to calculate the vibration of a virtual object when an impact is occurred, and the sound pressure data at the speaker position was then calculated based on the 2D complex amplitude of the object surface in real time. The AudioHaptics system can generate sounds originating from virtual objects, which can have arbitrary shapes, attributes and inner structures. Experiments for evaluation with real users demonstrated that this method is effective for rendering audio and haptic sensation.
Keywords :
audio user interfaces; end effectors; finite element analysis; haptic interfaces; virtual reality; AudioHaptics; audio rendering; auditory sensation; end effecter; finite element method; haptic environment; haptic interface; haptic rendering; haptic sensation; virtual object; Acoustic materials; Audio systems; Feedback; Finite element methods; Haptic interfaces; Loudspeakers; Reverberation; Shape; Virtual environment; Virtual reality;
Conference_Titel :
Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2004. HAPTICS '04. Proceedings. 12th International Symposium on
Print_ISBN :
0-7695-2112-6
DOI :
10.1109/HAPTIC.2004.1287203
