Yusuke Ikeda scite author profile

Sound-field imaging, the visualization of spatial and temporal distribution of acoustical properties such as sound pressure, is useful for understanding acoustical phenomena. This study investigated the use of parallel phase-shifting interferometry (PPSI) with a high-speed polarization camera for imaging a sound field, particularly high-speed imaging of propagating sound waves. The experimental results showed that the instantaneous sound field, which was generated by ultrasonic transducers driven by a pure tone of 40 kHz, was quantitatively imaged. Hence, PPSI can be used in acoustical applications requiring spatial information of sound pressure.

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Reversible photoswitchable ferromagnetic thin film based on a cyanido-bridged RbCuMo complex

Ohkoshi

Shiraishi

Nakagawa

et al. 2021

J. Mater. Chem. C

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Sound field reproduction and sharing system based on the boundary surface control principle

Omoto

Ise

Ikeda

et al. 2015

Acoust. Sci. ^|^ Tech.

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In this paper, we introduce a newly developed sound-field-reproducing and -sharing system. The system consists of an 80-channel fullerene-shaped microphone array and a 96-channel loudspeaker array mounted in an enclosure called a sound cask, so named because of its shape. The cask has two functions. First, it functions as a precise sound field reproduction system. The sound signals acquired from a microphone array in any sound field can be reproduced in the sound cask after passing through filters that modify the amplitude and phase on the basis of the boundary surface control principle. The large number of loudspeakers result in the precise orientation and depth of sound images. Second, it functions as a platform for a sound-field-sharing system. Several casks located remotely can appear to exist in the same sound field for subjects inside a cask. In addition, the cask is large enough for one to be able to play a musical instrument inside it. The musical sound or voices produced by subjects can be shared by subjects in a distant cask after convoluting the impulse responses of the original sound field. The concept of the system is explained in detail.

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SYNTHESIS OF dl-(2E,6Z,10E)-CERICERENE FOR ELUCIDATION OF THE PROPOSED STRUCTURE OF CERICEROL-I

Ikeda¹,

Aoki²,

Uyehara³

et al. 1983

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Yusuke Ikeda

High-speed imaging of sound using parallel phase-shifting interferometry

Reversible photoswitchable ferromagnetic thin film based on a cyanido-bridged RbCuMo complex

Sound field reproduction and sharing system based on the boundary surface control principle

SYNTHESIS OF dl-(2E,6Z,10E)-CERICERENE FOR ELUCIDATION OF THE PROPOSED STRUCTURE OF CERICEROL-I

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