■ Office
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Tsudanuma Campus, No.2 Building,15th floor room 011508
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■ Academic background
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〔Doctorial Course〕, Kobe University, Completed,
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■ Present specialized field
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Perceptual information processing, Kansei informatics, Architectural environment and building equipment
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■ E-Mail Address
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■ Research activities
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1.
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The Acoustical Society of America
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2.
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The Acoustical Society of Japan
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3.
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2005/05~2008/04
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∟ Director
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4.
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Audio Engineering Society
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■ Works
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1.
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Book
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Head-Related Transfer Function and Acoustic Virtual Reality (Single) 2019/10/23
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2.
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Book
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Hearing (Collaboration) 2021/04/27
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3.
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Book
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Fundamentals of Engineering Acoustics (Single) 2012/03
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4.
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Article
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Toolkit for individualization of head-related transfer functions using parametric notch-peak model Applied Acoustics 189 (Collaboration) 2022
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5.
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Article
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Generation of the amplitude spectra of the individual head-related transfer functions in the upper median plane based on the anthropometry of the listener's pinnae Applied Acoustics 155,pp.280-285 (Collaboration) 2019/09
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6.
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Article
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Median plane sound localization using early head-related impulse response Applied Acoustics in printing (Collaboration) 2018
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7.
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Article
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Upper median plane localization when head-related transfer functions of different target vertical angles are presented to the left and right ears Acoustical Science and Technology in Printing (Collaboration) 2018
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8.
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Article
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Effects of adding a spectral peak generated by the second pinna resonance to a parametric model of head-related transfer functions on upper median plane sound localization Applied Acoustics 129,pp.239-247 (Collaboration) 2018/01
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9.
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Article
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Personalization of head-related transfer functions in the median plane based on the anthropometry of the listener's pinnae, Journal of Acoustical Society of America 136(1),pp.317-333 (Collaboration) 2014/07
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10.
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Article
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Mechanism for generating peaks and notches of head-related transfer functions in the median plane Journal of Acoustical Society of America 132(6),pp.3832-3841 (Collaboration) 2012
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11.
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Article
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Three-dimensional sound image control by two loudspekers located in the transverse plane The journal of the acoustical society of Japan pp.331-342 (Collaboration) 2012/07
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12.
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Article
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Median plane localization using parametric model of the head-related transfer function based on spectral cues Applied Acoustics 63(8),pp.835-850 (Collaboration) 2007/08
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13.
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Article
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Model for estimating elevation of sound source in the median plane from ear-input signals Acoustical Science and Technology 31,pp.191-194 (Single) 2010/03
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14.
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Article
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Estimation of the category of notch frequency bins of the individual head-related transfer functions using the anthropometry of the listener’s pinnae Applied Acoustics 177 (Collaboration) 2021
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15.
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Article
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Estimation of the category of notch frequency bins of the individual head-related transfer functions using the anthropometry of the listener’s pinnae Applied Acoustics (Collaboration) 2021
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16.
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Article
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Estimation of spectral notch frequencies of the individual head-related transfer function from anthropometry of listener's pinna 19,pp.050174 (Collaboration) 2013
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17.
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Article
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Comparison of transfer functions between the actual pinna and the simple pinna model, which is composed of a rectangular plate and three rectangular cavities (Collaboration) 2012
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18.
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Article
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3D sound image control by individualized parametric head-related transfer functions (Collaboration) 2011
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19.
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Article
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A simple pinna model for generating head-related transfer functions in the median plan (Collaboration) 2010
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20.
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Article
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Contribution of the early part of the head-related impulse responses to the formation of two spectral notches of vertical localization cues (Collaboration) 2010
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21.
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Article
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A study on 3D sound image control by two loudspeakers located in the transverse plane (Collaboration) 2009
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22.
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Article
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Individualization of the head-related transfer functions on the basis of the spectral cues for sound localization (Collaboration) 2009
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23.
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Article
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Motion-tracked 3D sound image localization system with individualizaton of head-related transfer functions (Collaboration) 2009
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24.
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Article
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A pair of spectral notches which plays a role of spectral cue in the vertical localizationand its application to estimation of sound source elevation from binaural signals pp.3501-3506 (Single) 2008/07
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25.
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Article
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The relation between spatial impression and the law of the first wavefront Applied Acoustics 69(2),pp.132-140 (Collaboration) 2008/01
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26.
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Article
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A model of the Head-Related Transfer Function based on spectral cues, PPA-05-003-IP (Collaboration) 2007/09
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27.
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Article
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Individual differences in directional bands in median plane localization Applied Acoustics 68(8),pp.909-915 (Collaboration) 2007/08
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28.
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Article
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Individual differences in directional bands, hu-1-4-4 (Collaboration) 2006/06
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29.
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Article
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Parametric HRTF: A novel Head-Related Transfer Function model based on spectral and interaural difference cues, hu-1-4-1 (Collaboration) 2006/06
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30.
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Article
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Appropriate frequency bandwidth in measuring interaural cross-correlation as a physical measure of auditory source width Acoustical Science and Technology 26(2),pp.179-184 (Collaboration) 2005
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31.
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Article
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A method of 3-D sound image localization with externalization through headphones using a new correction filter of headphone-to-eardrum transfer functions , II-993-996 (Collaboration) 2004/04
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32.
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Article
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Upper hemisphere sound localization using head-related transfer functions in the median plane and interaural differences Acoustical Science and Technology 24(5),pp.267-275 (Collaboration) 2003/09
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33.
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Article
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The role of low frequency components in median plane localization Acoustical Science and Technology 24(2),pp.76-82 (Collaboration) 2003
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34.
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Article
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The role of reflections from behind the listener in spatial impression Applied Acoustics 62,pp.109-124 (Collaboration) 2001
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35.
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Article
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A practical evaluation method of auditory source width in concert halls Journal of Acoustical Society of Japan.(E) 16(2),pp.59-69 (Collaboration) 1995
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36.
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Article
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Some further consideration on auralization of a sound field based on a binaural signal processing model Journal of Acoustical Society of Japan.(E) 16(2),pp.115-122 (Collaboration) 1995
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37.
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Article
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Relation between auditory source width in various sound fields and degree of interaural crosscorrelation: Confirmation by constant method Applied Acoustics 42,pp.233-238 (Collaboration) 1994
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38.
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Article
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Basic study on sound field simulation based on running interaural crosscorrelation Applied Acoustics 38,pp.303-317 (Collaboration) 1993
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39.
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Article
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Relation between auditory source width in various sound fields and degree of interaural crosscorrelation Applied Acoustics 38,pp.291-301 (Collaboration) 1993
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40.
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Article
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A chart of %-split of sound image Journal of Acoustical Society of Japan.(E) 11(3),pp.157-160 (Collaboration) 1990
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