| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1049261632 |
| P356 | DOI | 10.1038/416087A |
| P932 | PMC publication ID | 2268248 |
| P698 | PubMed publication ID | 11882898 |
| P5875 | ResearchGate publication ID | 11479978 |
| P50 | author | Andrew J Oxenham | Q50256253 |
| P2093 | author name string | Bertrand Delgutte | |
| Zachary M Smith | |||
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| P433 | issue | 6876 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 87-90 | |
| P577 | publication date | 2002-03-01 | |
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Chimaeric sounds reveal dichotomies in auditory perception | |
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| Q38783334 | Challenges for the application of optical stimulation in the cochlea for the study and treatment of hearing loss |
| Q34981412 | Characterizing Alzheimer's disease severity via resting-awake EEG amplitude modulation analysis |
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| Q30010644 | Cineradiography of monkey lip-smacking reveals putative precursors of speech dynamics |
| Q28650837 | Classifying acoustic signals into phoneme categories: average and dyslexic readers make use of complex dynamical patterns and multifractal scaling properties of the speech signal |
| Q30368003 | Clinical assessment of music perception in cochlear implant listeners |
| Q30419442 | Clinical trial results with the MED-EL fine structure processing coding strategy in experienced cochlear implant users. |
| Q30480927 | Cochlear implant melody recognition as a function of melody frequency range, harmonicity, and number of electrodes. |
| Q43976285 | Cochlear implants with fine structure processing improve speech and tone perception in Mandarin-speaking adults |
| Q30452445 | Cochlear implants: a remarkable past and a brilliant future |
| Q30382987 | Cochlear implants: system design, integration, and evaluation. |
| Q34341314 | Coding conspecific identity and motion in the electric sense |
| Q30471023 | Coding of amplitude modulation in primary auditory cortex |
| Q47782463 | Coherence depression in stochastic excitable systems with two-frequency forcing |
| Q30466426 | Combined electro-acoustic stimulation: a beneficial union? |
| Q30459529 | Comparing the effects of reverberation and of noise on speech recognition in simulated electric-acoustic listening |
| Q55334039 | Comparison of Two Music Training Approaches on Music and Speech Perception in Cochlear Implant Users. |
| Q30397793 | Comparison of bimodal and bilateral cochlear implant users on speech recognition with competing talker, music perception, affective prosody discrimination, and talker identification. |
| Q48631398 | Concurrent encoding of frequency and amplitude modulation in human auditory cortex: MEG evidence. |
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| Q50455935 | Conductive hearing loss disrupts synaptic and spike adaptation in developing auditory cortex. |
| Q30380253 | Consonant identification in noise using Hilbert-transform temporal fine-structure speech and recovered-envelope speech for listeners with normal and impaired hearing. |
| Q30415279 | Consonant identification using temporal fine structure and recovered envelope cues |
| Q30394165 | Constraints on Sensitivity to Auditory Modulation in the Perceptual Organization of Speech |
| Q46520940 | Continuous improvement in Mandarin lexical tone perception as the number of channels increased: a simulation study of cochlear implant |
| Q30540800 | Correct tonotopic representation is necessary for complex pitch perception. |
| Q30352639 | Cortical encoding of pitch contour changes in cochlear implant users: a mismatch negativity study |
| Q30463959 | Cross-modal source information and spoken word recognition |
| Q30475595 | Crossmodal Source Identification in Speech Perception |
| Q26822252 | Deep electrode insertion and sound coding in cochlear implants |
| Q30440775 | Detection of acoustic temporal fine structure by cochlear implant listeners: behavioral results and computational modeling |
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| Q52037620 | Dichotomies in the perception of speech. |
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| Q50484171 | Effect of cochlear damage on the detection of complex temporal envelopes. |
| Q30373762 | Effect of instrument timbre on melodic contour identification by cochlear implant users. |
| Q30368693 | Effect of multi-electrode configuration on sensitivity to interaural timing differences in bilateral cochlear-implant users. |
| Q30358069 | Effects of age on melody and timbre perception in simulations of electro-acoustic and cochlear-implant hearing. |
| Q30481364 | Effects of high-rate pulse trains on electrode discrimination in cochlear implant users |
| Q30489351 | Effects of moderate cochlear hearing loss on the ability to benefit from temporal fine structure information in speech |
| Q30472519 | Effects of spectral shifting on speech perception in noise |
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| Q51306958 | Effects of temporal fine structure stimulation on Mandarin speech recognition in cochlear implant users. |
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| Q30441677 | Efficient coding of spectrotemporal binaural sounds leads to emergence of the auditory space representation |
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| Q30394904 | Hierarchical effects of task engagement on amplitude modulation encoding in auditory cortex |
| Q50073636 | How We Hear: The Perception and Neural Coding of Sound |
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| Q42636811 | Identifying fragments of natural speech from the listener's MEG signals |
| Q30467856 | Impaired perception of temporal fine structure and musical timbre in cochlear implant users |
| Q30496629 | Improved temporal coding of sinusoids in electric stimulation of the auditory nerve using desynchronizing pulse trains |
| Q30489905 | Improving performance in noise for hearing aids and cochlear implants using coherent modulation filtering |
| Q30439084 | Improving speech perception in noise with current focusing in cochlear implant users |
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| Q30427811 | MUSIC APPRECIATION AND TRAINING FOR COCHLEAR IMPLANT RECIPIENTS: A REVIEW. |
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| Q30379812 | Melodic contour identification and music perception by cochlear implant users. |
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| Q30431693 | Multisensory vocal communication in primates and the evolution of rhythmic speech |
| Q89620387 | Music Perception Testing Reveals Advantages and Continued Challenges for Children Using Bilateral Cochlear Implants |
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| Q30381299 | Musical FAVORS: Reintroducing music to adult cochlear implant users. |
| Q34314567 | Musical pitch discrimination by cochlear implant users |
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| Q90263550 | Pleasantness Ratings for Harmonic Intervals With Acoustic and Electric Hearing in Unilaterally Deaf Cochlear Implant Patients |
| Q91782032 | Predicting Speech Recognition Using the Speech Intelligibility Index and Other Variables for Cochlear Implant Users |
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| Q30391023 | Psychoacoustic abilities associated with music perception in cochlear implant users |
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| Q30465275 | Psychophysiological analyses demonstrate the importance of neural envelope coding for speech perception in noise |
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| Q30458581 | Reducing current spread using current focusing in cochlear implant users |
| Q55324116 | Reducing language to rhythm: Amazonian Bora drummed language exploits speech rhythm for long-distance communication. |
| Q30387880 | Reference-Free Assessment of Speech Intelligibility Using Bispectrum of an Auditory Neurogram. |
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| Q50345689 | Relative contributions of acoustic temporal fine structure and envelope cues for lexical tone perception in noise |
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| Q37863147 | Representation of temporal sound features in the human auditory cortex |
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| Q30368352 | Revisiting place and temporal theories of pitch |
| Q50181626 | Robust Neuronal Discrimination in Primary Auditory Cortex Despite Degradations of Spectro-temporal Acoustic Details: Comparison Between Guinea Pigs with Normal Hearing and Mild Age-Related Hearing Loss |
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| Q30431887 | Role and relative contribution of temporal envelope and fine structure cues in sentence recognition by normal-hearing listeners |
| Q30364163 | Role of Binaural Temporal Fine Structure and Envelope Cues in Cocktail-Party Listening. |
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| Q55298112 | Role of short-time acoustic temporal fine structure cues in sentence recognition for normal-hearing listeners. |
| Q30417528 | SEPARATING THE EFFECTS OF ACOUSTIC AND PHONETIC FACTORS IN LINGUISTIC PROCESSING WITH IMPOVERISHED SIGNALS BY ADULTS AND CHILDREN. |
| Q59289779 | Scrambling-based speech encryption via compressed sensing |
| Q50462258 | Self-reported benefits from successive bilateral cochlear implantation in post-lingually deafened adults: randomised controlled trial |
| Q30489947 | Sensitivity of inferior colliculus neurons to interaural time differences in the envelope versus the fine structure with bilateral cochlear implants |
| Q30336161 | Signal Coding in Cochlear Implants: Exploiting Stochastic Effects of Electrical Stimulation |
| Q30432509 | Sound texture perception via statistics of the auditory periphery: evidence from sound synthesis |
| Q30404735 | Spatial channel interactions in cochlear implants |
| Q30403828 | Spatial hearing benefits demonstrated with presentation of acoustic temporal fine structure cues in bilateral cochlear implant listeners. |
| Q30464421 | Specification of cross-modal source information in isolated kinematic displays of speech |
| Q30367575 | Spectral and temporal cues for speech recognition: implications for auditory prostheses |
| Q30411300 | Spectral and temporal measures in hybrid cochlear implant users: on the mechanism of electroacoustic hearing benefits |
| Q30446734 | Spectral context affects temporal processing in awake auditory cortex |
| Q30490208 | Spectrotemporal processing differences between auditory cortical fast-spiking and regular-spiking neurons |
| Q30352925 | Speech and music have different requirements for spectral resolution. |
| Q30364583 | Speech and music perception with the new fine structure speech coding strategy: preliminary results. |
| Q30483884 | Speech identification based on temporal fine structure cues |
| Q30458283 | Speech perception in simulated electric hearing exploits information-bearing acoustic change |
| Q30425385 | Speech perception in tones and noise via cochlear implants reveals influence of spectral resolution on temporal processing |
| Q35214831 | Speech perception problems of the hearing impaired reflect inability to use temporal fine structure |
| Q30488514 | Speech recognition and temporal amplitude modulation processing by Mandarin-speaking cochlear implant users |
| Q50422787 | Speech recognition interference by the temporal and spectral properties of a single competing talker. |
| Q49014754 | Speech recognition outcomes in Mandarin-speaking cochlear implant users with fine structure processing |
| Q30500086 | Speech recognition with amplitude and frequency modulations |
| Q30444849 | Speech rhythms and multiplexed oscillatory sensory coding in the human brain |
| Q30434463 | Suboptimal use of neural information in a mammalian auditory system. |
| Q92651685 | Superregular grammars do not provide additional explanatory power but allow for a compact analysis of animal song |
| Q35554171 | Technology and the Future of Cochlear Implants |
| Q55288552 | Temporal Resolution Needed for Auditory Communication: Measurement With Mosaic Speech. |
| Q89482139 | Temporal and spectral contributions to musical instrument identification and discrimination among cochlear implant users |
| Q30458996 | Temporal codes for amplitude contrast in auditory cortex. |
| Q30481123 | Temporal envelope of time-compressed speech represented in the human auditory cortex |
| Q50439250 | Temporal fine structure in cochlear implants: preliminary speech perception results in Cantonese-speaking implant users |
| Q30395524 | The "Globularization Hypothesis" of the Language-ready Brain as a Developmental Frame for Prosodic Bootstrapping Theories of Language Acquisition |
| Q92402855 | The Lateralization of Speech-Brain Coupling Is Differentially Modulated by Intrinsic Auditory and Top-Down Mechanisms |
| Q30404830 | The MuSIC perception test: a novel battery for testing music perception of cochlear implant users. |
| Q39849464 | The Relative Contributions of Temporal Envelope and Fine Structure to Mandarin Lexical Tone Perception in Auditory Neuropathy Spectrum Disorder |
| Q50484016 | The Relative Importance of Amplitude, Temporal, and Spectral Cues for Cochlear Implant Processor Design |
| Q30363289 | The Relative Weight of Temporal Envelope Cues in Different Frequency Regions for Mandarin Sentence Recognition. |
| Q30368215 | The Role of Rhythm in Speech and Language Rehabilitation: The SEP Hypothesis |
| Q30409193 | The Role of Temporal Envelope and Fine Structure in Mandarin Lexical Tone Perception in Auditory Neuropathy Spectrum Disorder |
| Q30451479 | The ability of cochlear implant users to use temporal envelope cues recovered from speech frequency modulation |
| Q21558501 | The anatomy of onomatopoeia |
| Q30474078 | The biophysical origin of traveling-wave dispersion in the cochlea. |
| Q30424987 | The choice of compression speed in hearing AIDS: theoretical and practical considerations and the role of individual differences |
| Q30430432 | The contribution of frequency-specific activity to hierarchical information processing in the human auditory cortex. |
| Q28652607 | The effect of enhancing temporal periodicity cues on Cantonese tone recognition by cochlear implantees |
| Q45353006 | The effect of spectral smearing on the identification of pure F0 intonation contours in vocoder simulations of cochlear implants |
| Q98772312 | The effectiveness of sound-processing strategies on tonal language cochlear implant users: A systematic review |
| Q44749299 | The effects of fine structure stimulation on pitch perception with cochlear implants |
| Q30380126 | The effects of selective attention and speech acoustics on neural speech-tracking in a multi-talker scene. |
| Q51033138 | The effects of the addition of low-level, low-noise noise on the intelligibility of sentences processed to remove temporal envelope information |
| Q28655330 | The evolution of speech: vision, rhythm, cooperation |
| Q90730788 | The human amygdala disconnecting from auditory cortex preferentially discriminates musical sound of uncertain emotion by altering hemispheric weighting |
| Q27335999 | The modulation transfer function for speech intelligibility |
| Q30467032 | The multiple functions of T stellate/multipolar/chopper cells in the ventral cochlear nucleus. |
| Q30488184 | The natural statistics of audiovisual speech |
| Q30402964 | The perception of speech modulation cues in lexical tones is guided by early language-specific experience |
| Q30419821 | The process of spoken word recognition in the face of signal degradation |
| Q100388935 | The role of cochlear place coding in the perception of frequency modulation |
| Q36055403 | The role of long-term familiarity and attentional maintenance in short-term memory for timbre |
| Q30394804 | The role of recovered envelope cues in the identification of temporal-fine-structure speech for hearing-impaired listeners |
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| Q30478372 | Transfer of auditory perceptual learning with spectrally reduced speech to speech and nonspeech tasks: implications for cochlear implants |
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| Q38667068 | Vocoder Simulations Explain Complex Pitch Perception Limitations Experienced by Cochlear Implant Users. |
| Q30368038 | Voice Pitch Elicited Frequency Following Response in Chinese Elderlies. |
| Q30439461 | What is temporal fine structure and why is it important? |
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