Virtual Microphone Technique for Binauralization for Multiple Sound Images on 2–Channel Stereo Signals Detected by Microphones Mounted Closely

R. Jinzai, K. Yamaoka, S. Makino, Nobutaka Ono, T. Yamada, M. Matsumoto
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Abstract

Because inter–channel time differences (ICTDs) between signals detected by real microphones mounted close to each other are much smaller than inter–aural time differences (ITDs) for sound image localization, sound images are localized at azimuths different from those of sound sources. In this paper, we propose a virtual microphone technique, which simulates binaural signals by equalizing ICTDs to ITDs, to localize sound images at azimuths of the sound sources with reference to the real microphones. Binaural signals simulated by the proposed method were examined objectively and subjectively by tests on two-sound-image localization. The tests revealed that the two sound images were localized at azimuths of the sound sources with reference to the real microphones.
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虚拟麦克风技术对紧密安装的双声道立体声信号进行多声像双听化
由于相邻安装的真实麦克风检测到的信号之间的通道间时差(ictd)远小于声像定位时的耳间时差(ITDs),因此声像定位在与声源不同的方位角上。在本文中,我们提出了一种虚拟麦克风技术,该技术通过平衡ictd和过渡段来模拟双耳信号,以参考真实麦克风在声源方位角处定位声音图像。通过双声像定位实验,对所模拟的双耳信号进行了客观和主观上的检验。测试结果表明,两个声音图像在声源的方位角上与真实麦克风相对应。
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来源期刊
APSIPA Transactions on Signal and Information Processing
APSIPA Transactions on Signal and Information Processing ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
8.60
自引率
6.20%
发文量
30
审稿时长
40 weeks
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