1.Vocal Analysis Related to Changes in Frequency of Pure Tone Auditory Feedback.
Sang Hyuk LEE ; Kyung Chul LEE ; Jae Ho BAN ; No Hee LEE ; Sung Min JIN
Yonsei Medical Journal 2008;49(4):610-614
PURPOSE: Many studies have shown that subjects show a change of vocal fundamental frequency (F0) when phonating subjects hear their vocal pitch feedback shifted upward or downward. This study was performed to demonstrate whether vocal parameters [F0, intensity, jitter, shimmer, and noise to harmonic ratio (NHR)] in normal males respond to changes in frequency of pure tone masking. MATERIALS and METHODS: Twenty healthy male subjects participated in this study. Subjects vocalized /a/ vowel sounds while listening to a pitch- shift pure tone through headphones (upward pitch-shift in succession: 1kHz to 2kHz and 1kHz to 4kHz at 50dB or 80dB, respectively, downward pitch-shift in succession: 1kHz to 250Hz and 1kH to 500Hz at 50dB or 80dB, respectively). RESULTS: Vocal intensity, F0, was increased, whereas jitter was decreased as the pitch of pure tone was shifted upward. However, there was no correlation between shimmer and NHR with pitch-shift feedback for pure tones. Unlike vocal pitch- shift feedback in other studies, upward pitch-shift feedback of pure tones caused the vocal F0 and intensity to change in the same direction as pitch-shift. CONCLUSION: The results of this study demonstrated that auditory kinesthetic feedback is affected by pitch-shift in pure tone.
Acoustic Stimulation
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Adult
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*Feedback
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Humans
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Male
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Pitch Perception/*physiology
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Voice/*physiology
2.Contributions of temporal and spectral cues to Chinese tone recognition in the continuous interleaved sampling strategy.
Chunxiao LI ; Xiang PAN ; Ju LIU ; Kaibao NIE
Journal of Biomedical Engineering 2006;23(1):41-44
Recent studies have revealed temporal waveform envelope cues as a function of time having significant influence on tone recognition in continuous interleaved sampling (CIS) of cochlear implants. In this study, temporal cues of speech signal have been modulated so that to different tones have nearly the same temporal waveform envelope. The processing signal is named modulated signal. The modulated signals and original signals are processed through software emulations of cochlear-implant signal processors. The recognition score of the modulated signals and originals are compared. The result indicates that temporal cues have great influence on tone recognition, but spectral cues are the principal factor determining the identification of tones.
Acoustic Stimulation
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instrumentation
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Asian Continental Ancestry Group
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Cochlear Implants
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Cues
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Deafness
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therapy
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Equipment Design
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Humans
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Pitch Perception
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physiology
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Speech Acoustics
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Speech Perception
3.The dual-pathway model of auditory signal processing.
Wen-Jie WANG ; Xi-Hong WU ; Liang LI
Neuroscience Bulletin 2008;24(3):173-182
Similar to the visual dual-pathway model, neurophysiological studies in non-human primates have suggested that the dual-pathway model is also applicable for explaining auditory cortical processing, including the ventral "what" pathway for object identification and the dorsal "where" pathway for spatial localization. This review summarizes evidence from human neuroimaging studies supporting the dual-pathway model for auditory cortical processing in humans.
Animals
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Auditory Cortex
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anatomy & histology
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physiology
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Auditory Pathways
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anatomy & histology
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physiology
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Auditory Perception
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physiology
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Humans
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Macaca
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anatomy & histology
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physiology
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Models, Neurological
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Neurons
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physiology
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Pitch Discrimination
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physiology
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Sound Localization
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physiology
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Space Perception
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physiology
4.Auditory pre-attentive processing of Chinese tones.
Li-jun YANG ; Ke-li CAO ; Chao-gang WEI ; Yong-zhi LIU
Chinese Medical Journal 2008;121(23):2429-2433
BACKGROUNDChinese tones are considered important in Chinese discrimination. However, the relevant reports on auditory central mechanisms concerning Chinese tones are limited. In this study, mismatch negativity (MMN), one of the event related potentials (ERP), was used to investigate pre-attentive processing of Chinese tones, and the differences between the function of oddball MMN and that of control MMN are discussed.
METHODSTen subjects (six men and four women) with normal hearing participated in the study. A sequence was presented to these subjects through a loudspeaker, the sequence included four blocks, a control block and three oddball blocks. The control block was made up of five components (one pure tone and four Chinese tones) with equiprobability. The oddball blocks were made up of two components, one was a standard stimulus (tone 1) and the other was a deviant stimulus (tone 2 or tone 3 or tone 4). Electroencephalogram (EEG) data were recorded when the sequence was presented and MMNs were obtained from the analysis of the EEG data.
RESULTSTwo kinds of MMNs were obtained, oddball MMN and control MMN. Oddball MMN was obtained by subtracting the ERP elicited by standard stimulation (tone 1) from that elicited by deviant stimulation (tone 2 or tone 3 or tone 4) in the oddball block; control MMN was obtained by subtracting the ERP elicited by the tone in control block, which was the same tone as the deviant stimulation in the oddball block, from the ERP elicited by deviant stimulation (tone 2 or tone 3 or tone 4) in the oddball block. There were two negative waves in oddball MMN, one appeared around 150 ms (oddball MMN 1), the other around 300 ms (oddball MMN 2). Only one negative wave appeared around 300 ms in control MMN, which was corresponding to the oddball MMN 2. We performed the statistical analyses in each paradigm for latencies and amplitudes for oddball MMN 2 in discriminating the three Chinese tones and reported no significant differences. But the latencies and amplitudes for control MMN in discriminating the three tones all were significantly different.
CONCLUSIONSThere are evident waveforms for oddball and control MMN obtained in normal hearing persons, indicating that the change of Chinese tones could be detected in the pre-attentive stage. Because control MMN can eliminate reflects for physical characteristics of sound, it is the genuine memory-based pre-attentive processing. Since control MMN can reflect the differences of Chinese tones processing better than oddball MMN, it is more sensitive in evaluating pre-attentive processing in Chinese tones discrimination.
Acoustic Stimulation ; methods ; Adolescent ; Auditory Perception ; physiology ; China ; Electroencephalography ; Evoked Potentials ; physiology ; Evoked Potentials, Auditory ; physiology ; Female ; Hearing ; physiology ; Humans ; Language ; Male ; Phonetics ; Pitch Perception ; physiology ; Reaction Time ; physiology ; Young Adult