Hearing one's own voice during phoneme vocalization--transmission by air and bone conduction.

The relationship between the bone conduction (BC) part and the air conduction (AC) part of one's own voice has previously not been well determined. This relation is important for hearing impaired subjects as a hearing aid affects these two parts differently and thereby changes the perception of one's own voice. A large ear-muff that minimized the occlusion effect while still attenuating AC sound was designed. During vocalization and wearing the ear muff the ear-canal sound pressure could be related to the BC component of a person's own voice while the AC component was derived from the sound pressure at the entrance of an open ear-canal. The BC relative to AC sensitivity of one's own voice was defined as the ratio between these two components related to the ear-canal sound pressure at hearing thresholds for BC and AC stimulation. The results of ten phonemes showed that the BC part of one's own voice dominated at frequencies between 1 and 2 kHz for most of the phonemes. The different phonemes gave slightly different results caused by differences during vocalization. However, similarities were seen for phonemes with comparable vocalization.

[1]  S. Stenfelt,et al.  Examination of bone-conducted transmission from sound field excitation measured by thresholds, ear-canal sound pressure, and skull vibrations. , 2007, The Journal of the Acoustical Society of America.

[2]  D. Dirks,et al.  Influence of middle-ear muscle contraction on pure-tone suprathreshold loudness judgments. , 1975, The Journal of the Acoustical Society of America.

[3]  Sunil Puria,et al.  Ossicular resonance modes of the human middle ear for bone and air conduction. , 2009, The Journal of the Acoustical Society of America.

[4]  R Hahn,et al.  [Bone conduction]. , 1972, JFORL. Journal francais d'oto-rhino-laryngologie; audiophonologie et chirurgie maxillo-faciale.

[5]  Francis Kuk Managing an "own voice" problem that has an amplifier origin. , 2005, Journal of the American Academy of Audiology.

[6]  Herbert J. Oyer Relative Intelligibility of Speech Recorded Simultaneously at the Ear and Mouth , 1955 .

[7]  J. Sundberg The acoustics of the singing voice. , 1977, Scientific American.

[8]  Stefan Stenfelt,et al.  A model of the occlusion effect with bone-conducted stimulation , 2007, International journal of audiology.

[9]  Xuedong Huang,et al.  Air- and bone-conductive integrated microphones for robust speech detection and enhancement , 2003, 2003 IEEE Workshop on Automatic Speech Recognition and Understanding (IEEE Cat. No.03EX721).

[10]  D. Irvine Effects of reflex middle-ear muscle contractions on cochlear responses to bone-conducted sound. , 1976, Audiology : official organ of the International Society of Audiology.

[11]  References , 1971 .

[12]  R. Naunton,et al.  The Stability of the Occlusion Effect , 1963 .

[13]  J Tonndorf,et al.  Bone conduction. Studies in experimental animals. , 1966, Acta Oto-Laryngologica.

[14]  A. Møller,et al.  AN EXPERIMENTAL STUDY OF THE ACOUSTIC IMPEDANCE OF THE MIDDLE EAR AND ITS TRANSMISSION PROPERTIES. , 1965, Acta oto-laryngologica.

[15]  Stefan Stenfelt,et al.  Bone-Conducted Sound: Physiological and Clinical Aspects , 2005, Otology & neurotology : official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology.

[16]  P. Oncley,et al.  Acoustics of the Singing Voice , 1954 .

[17]  Dan Gauger,et al.  Hearing protection: surpassing the limits to attenuation imposed by the bone-conduction pathways. , 2003, The Journal of the Acoustical Society of America.

[18]  Stefan Stenfelt,et al.  Factors contributing to bone conduction: the middle ear. , 2002, The Journal of the Acoustical Society of America.

[19]  Masahiko Fujita,et al.  Marketing a Bone Conductive Receiver/Microphone , 2006 .

[20]  Søren Laugesen,et al.  Observations on the relations among occlusion effect, compliance, and vent size. , 2002, Journal of the American Academy of Audiology.

[21]  Bo E. V. Håkanssona The balanced electromagnetic separation transducer : A new bone conduction transducer , 2003 .

[22]  Huizing Eh Bone conduction-the influence of the middle ear. , 1960 .

[23]  J. Sundberg The acoustics of the singing voice. , 1977 .

[24]  Raymond D. Black Ear‐Insert Microphone , 1957 .

[25]  E H HUIZING,et al.  Bone conduction-the influence of the middle ear. , 1960, Acta oto-laryngologica. Supplementum.

[26]  H Ono Improvement and evaluation of the vibration pick-up-type ear microphone and two-way communication device. , 1977, The Journal of the Acoustical Society of America.

[27]  E Borg,et al.  The activity of the stapedius muscle in man during vocalization. , 1975, Acta oto-laryngologica.

[28]  Georg v. Békésy,et al.  The Structure of the Middle Ear and the Hearing of One's Own Voice by Bone Conduction , 1949 .

[29]  日本規格協会 Acoustics : normal equal-loudness-level contours = 音響 : 正常な音の大きさの等感曲線 , 2004 .