With a high sound quality stimulated by the electrical device and a large inclusion in medical insurance, the number of cochlear implant recipients has been rapidly increased in Korea. Today, it is not surprising that early implanted young children with congenital deafness show a similar performance to their normal hearing peers in speech perception. However, the cochlear implant users still have a trouble to enjoy music. This review study aims to introduce briefly about acoustic components that required to perceive the music and understand a relationship between cochlear implantation and temporal fine structure. For the pediatric implant users who have less experience on acoustical sound features but are much familiar with the electrically stimulated sound, perceiving the music seems to be challengeable due to the lack of temporal fine resolution related to pitch and timbre among various components of music. Four representative test batteries for evaluating the recipients' ability of the music perception were mentioned and effective auditory music trainings were discussed with analysis of related investigations. Unlike hearing aids users who usually depend on fitting algorism for better music quality, the cochlear implant users need systematic training to improve their music perception ability. In conclusion, advancement of speech processing technology which can provide accurate information about the temporal fine structure of incoming music to the recipients needs to be developed. Also, a practical application of music training should be recommended as a part of auditory training for the cochlear implant users.
Acoustics ; Child ; Cochlear Implantation ; Cochlear Implants ; Deafness ; Hearing ; Hearing Aids ; Humans ; Insurance ; Korea ; Music ; Perception ; Pitch Perception ; Speech Perception

Cochlear Implantation ; Cochlear Implants ; Humans ; Music ; Pitch Perception

OBJECTIVE: The present study was aimed to assess the ability of tone recognition performance for postlingually deafed cochlear implanted adults using no-duration tone test materials. METHOD: Sixteen cochlear implanted users have used their devices at least six months. Ten monosyllabic syllables were selected, and combined with four lexical tones which were made up of 40 tone tokens. Then, these original words were recorded using one adult male and one adult female native Beijing Mandarin speaker. The speakers were asked to record these 40 monosyllabic words multiple times, and the 80 tokens in which the durations of four tones in each monosyllabic word were within 5 ms precision were chosen as the original tone tokens. The subjects were asked to perform a four alternative forced-choice study and select the tone they had heard. RESULT: The mean score of lexical tone perception tasks for 16 cochlear implanted users is (70.7 ± 22.0)%, and Tone 4 was the easiest to perceive, while Tone 2 was the hardest for cochlear implanted subjects to perceive. Tone 1 was more often misperceived as Tone 2 relative to other tones. Tone 2 was more often misperceived as Tone 1 and 3. Tone 3 was more often misperceived as Tone 2. The tone perception performance was positively correlated with duration of hearing aid use. CONCLUSION Duration cues may impact on the ability of tone recognition performance for cochlear implant subjects, especially for tone 3. Due to the limited ability for cochlear implant subjects on pitch perception, tone l and tone 2, and tone 2 and tone 3 are most often confused with each other without duration cues. The experience of hearing aid use may benefit for postlingual deafness cochlear implant recipients on tone perception performance.
Adult ; Asian Continental Ancestry Group ; Cochlear Implantation ; Cochlear Implants ; Female ; Hearing ; Hearing Aids ; Humans ; Language ; Male ; Pitch Perception ; Speech Perception ; Tongue

OBJECTIVE: To establish music reference values for normal-hearing (NH) person in China, in order to give convenience in clinical application. METHOD: The NH participant group included 39 subjects, of which 21 females and 18 males. Musical Sounds in Cochlear Implants test battery was used to assess the music perception ability for normal-hearing participants. RESULT: The median pitch difference NH participants could discriminate for string was 2.5 semitones and 0.5 for flute. The average scores of rhythm discrimination, melody discrimination, chord discrimination, instrument identification and instrument number detection test were 86.1% (SD = 11.2), 76.5% (SD = 11.1), 75.6% (SD = 11.4), 89.9% (SD = 13.0) and 74.1% (SD = 20.7), respectively. CONCLUSION The MuSIC test could be a test for music perception ability for China users and in further study the material that more suited for our culture should be added into it.
Adolescent ; Adult ; Auditory Perception ; Cochlear Implantation ; Cochlear Implants ; Female ; Humans ; Male ; Middle Aged ; Music ; Pitch Perception ; Reference Values ; Young Adult

OBJECTIVE: To assess the performance of the new fine structure processing strategy(FS4) compared to the previous generation coding strategy HDCIS. METHOD: Twelve post-lingual hearing-impaired cochlear implant users were included. FS4 and HDCIS were compared in music pitch perception and speech perception test. RESULT: Acute comparison between FS4 and HDCIS showed that FS4 performed as well as HDCIS in speech perception tests, and outperformed HDCIS in music pitch perception. CONCLUSION Results indicate that FS4 performs better than HDCIS in music perception. Differences between the two strategies were not significant for speech test.
Adolescent ; Adult ; Child ; Cochlear Implantation ; rehabilitation ; Cochlear Implants ; Deafness ; rehabilitation ; Female ; Humans ; Male ; Middle Aged ; Pitch Perception ; Speech Perception ; Young Adult

A cochlear implant (CI) is a kind of surgically implanted electronic device that provides a sense of sound to a person who has severe to profound sensorineural hearing impairment. However, studies have shown that the performance in music perception for CI users has not been achieved to an ideal level. It is important to evaluate the ability to perceive music using well designed music perception test materials, in order to improve the quality of life for cochlear implant users. This paper reviewed the studies on assessing music perception ability for adult cochlear implant users from the existing literature.
Cochlear Implantation ; Cochlear Implants ; Humans ; Music ; Pitch Perception

OBJECTIVE: To assess the emotional response to music by postlingually-deafened adult cochlear implant users. METHOD: Munich music questionnaire (MUMU) was used to match the music experience and the motivation of use of music between 12 normal-hearing and 12 cochlear implant subjects. Emotion rating test in Musical Sounds in Cochlear Implants (MuSIC) test battery was used to assess the emotion perception ability for both normal-hearing and cochlear implant subjects. A total of 15 pieces of music phases were used. Responses were given by selecting the rating scales from 1 to 10. "1" represents "very sad" feeling, and "10" represents "very happy feeling. RESULT: In comparison with normal-hearing subjects, 12 cochlear implant subjects made less active use of music for emotional purpose. The emotion ratings for cochlear implant subjects were similar to normal-hearing subjects, but with large variability. CONCLUSION Post-lingually deafened cochlear implant subjects on average performed similarly in emotion rating tasks relative to normal-hearing subjects, but their active use of music for emotional purpose was obviously less than normal-hearing subjects.
Adolescent ; Adult ; Case-Control Studies ; Cochlear Implantation ; Cochlear Implants ; Deafness ; rehabilitation ; Emotions ; Female ; Humans ; Male ; Middle Aged ; Music ; psychology ; Pitch Perception ; Young Adult

Automatic speaker gender identification based on voice feature is an important task in voice processing and analysis fields. In this paper non-linear parameters such as fractal dimension are applied to be one part of feature space for improving the ability of describing speaker gender feature through conventional linear parameters method. Pitch is picked using lifting scheme, and audio fractal dimension is extracted. Then based on Takens theory, the time delay method is used to reconstruct the phase space of fractal dimension sequence. And fractal dimension complexity is obtained by calculating Approximate Entropy. Three dimension feature vectors, including the pitch, the fractal dimension and the fractal dimension complexity, are applied to speaker gender identification. Experiment results show that through adding non-linear parameters, compared with the linear parameter using one dimension only such as pitch, the proposed method is more accurate and robust, and thus provides a new way for speaker gender identification.
Algorithms ; Artificial Intelligence ; Biometry ; methods ; Humans ; Nonlinear Dynamics ; Pattern Recognition, Automated ; methods ; Pitch Discrimination ; Sex Characteristics ; Signal Processing, Computer-Assisted ; Speech ; Speech Acoustics ; Voice

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 ; Auditory Cortex ; anatomy & histology ; physiology ; Auditory Pathways ; anatomy & histology ; physiology ; Auditory Perception ; physiology ; Humans ; Macaca ; anatomy & histology ; physiology ; Models, Neurological ; Neurons ; physiology ; Pitch Discrimination ; physiology ; Sound Localization ; physiology ; Space Perception ; physiology

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