Title :
Visualization of sound field using Optical Wave Microphone coupled with computerized tomography
Author :
Nakamiya, T. ; Iwasaki, Y. ; Tsuda, R. ; Sonoda, Y. ; Mitsugi, F. ; Ikegami, T.
Author_Institution :
Grad. Sch. of Ind. Eng., Tokai Univ., Kumamoto, Japan
Abstract :
The novel method, which we call the “Optical Wave Microphone (OWM)” technique, is based on a Fraunhofer diffraction effect between sound wave and laser beam. The light diffraction technique is an effective sensing method to detect the sound and is flexible for practical uses as it involves only a simple optical lens system. In this work, fibered OWM which is improved in signal-noise ratio of the conventional OWM, was developed. This new method can realize high accuracy measurement of slight density change of atmosphere. Moreover, fibered OWM can be applied for sound field visualization by computerized tomography (CT) because the ultra-small modulation by the sound field is integrated along the laser beam path.
Keywords :
Fraunhofer diffraction; acoustic field; acoustic waves; computerised tomography; laser beams; lenses; microphones; optical modulation; optical signal detection; CT; Fraunhofer diffraction effect; atmosphere slight density change measurement; computerized tomography; effective sensing method; fibered OWM technique; laser beam; light diffraction technique; optical lens system; optical wave microphone; signal-noise ratio; sound field visualization; sound wave detection; ultrasmall modulation; Laser beams; Optical diffraction; Optical fibers; Optical refraction; Optical transmitters; Optical variables control; Audio sound; Laser diffraction; Sound field; Ultra sound; Visualization;
Conference_Titel :
Consumer Electronics (GCCE), 2014 IEEE 3rd Global Conference on
Conference_Location :
Tokyo
DOI :
10.1109/GCCE.2014.7031281
