Pages that link to "Q46347506"

The following pages link to Encoding frequency modulation to improve cochlear implant performance in noise (Q46347506):

Displaying 45 items.

• The Effects of Auditory Contrast Tuning upon Speech Intelligibility (Q27303977) (← links)
• Investigating the use of a Gammatone filterbank for a cochlear implant coding strategy. (Q30364567) (← links)
• Speech recognition in cochlear implant recipients: comparison of standard HiRes and HiRes 120 sound processing. (Q30374070) (← links)
• Quantifying envelope and fine-structure coding in auditory nerve responses to chimaeric speech (Q30376145) (← links)
• Investigating the effects of stimulus duration and context on pitch perception by cochlear implant users. (Q30378947) (← links)
• Cochlear implants: system design, integration, and evaluation. (Q30382987) (← links)
• Comparing Binaural Pre-processing Strategies II: Speech Intelligibility of Bilateral Cochlear Implant Users. (Q30383109) (← links)
• Mandarin Chinese tone identification in cochlear implants: predictions from acoustic models (Q30394188) (← links)
• Comparison of bimodal and bilateral cochlear implant users on speech recognition with competing talker, music perception, affective prosody discrimination, and talker identification. (Q30397793) (← links)
• Comparison of the fine structure processing (FSP) strategy and the CIS strategy used in the MED-EL cochlear implant system: Speech intelligibility and music sound quality (Q30397961) (← links)
• Spatial hearing benefits demonstrated with presentation of acoustic temporal fine structure cues in bilateral cochlear implant listeners. (Q30403828) (← links)
• Encoding frequency contrast in primate auditory cortex (Q30410410) (← links)
• Pitch encoding in speech and nonspeech contexts in the human auditory brainstem (Q30416091) (← links)
• Improved perception of speech in noise and Mandarin tones with acoustic simulations of harmonic coding for cochlear implants (Q30423503) (← links)
• What is temporal fine structure and why is it important? (Q30439461) (← links)
• Detection of acoustic temporal fine structure by cochlear implant listeners: behavioral results and computational modeling (Q30440775) (← links)
• Rate and onset cues can improve cochlear implant synthetic vowel recognition in noise (Q30442322) (← links)
• The ability of cochlear implant users to use temporal envelope cues recovered from speech frequency modulation (Q30451479) (← links)
• Cochlear implants: a remarkable past and a brilliant future (Q30452445) (← links)
• Relative Contributions of Temporal Envelope and Fine Structure Cues to Lexical Tone Recognition in Hearing-Impaired Listeners (Q30460326) (← links)
• Psychophysiological analyses demonstrate the importance of neural envelope coding for speech perception in noise (Q30465275) (← links)
• Role of binaural hearing in speech intelligibility and spatial release from masking using vocoded speech (Q30478898) (← links)
• Binaural jitter improves interaural time-difference sensitivity of cochlear implantees at high pulse rates (Q30481090) (← links)
• Experience-dependent neural representation of dynamic pitch in the brainstem (Q30482823) (← links)
• Speech identification based on temporal fine structure cues (Q30483884) (← links)
• The intelligibility of pointillistic speech (Q30484657) (← links)
• The role of temporal fine structure processing in pitch perception, masking, and speech perception for normal-hearing and hearing-impaired people (Q30484947) (← links)
• Current focusing and steering: modeling, physiology, and psychophysics (Q30487725) (← links)
• Improving performance in noise for hearing aids and cochlear implants using coherent modulation filtering (Q30489905) (← links)
• Psychophysical performance and Mandarin tone recognition in noise by cochlear implant users (Q30490039) (← links)
• Benefits of bilateral cochlear implants and/or hearing aids in children (Q30491198) (← links)
• Pulse-rate discrimination by cochlear-implant and normal-hearing listeners with and without binaural cues (Q30493189) (← links)
• Fundamental frequency discrimination and speech perception in noise in cochlear implant simulations (Q30493580) (← links)
• Speech recognition with amplitude and frequency modulations (Q30500086) (← links)
• Musical pitch discrimination by cochlear implant users (Q34314567) (← links)
• Speech perception problems of the hearing impaired reflect inability to use temporal fine structure (Q35214831) (← links)
• A new approach for speech synthesis in cochlear implant systems based on electrophysiological factors (Q39334906) (← links)
• The effect of prior knowledge and intelligibility on the cortical entrainment response to speech (Q43567316) (← links)
• Regularity encoding and deviance detection of frequency modulated sweeps: human middle- and long-latency auditory evoked potentials (Q45769591) (← links)
• Continuous improvement in Mandarin lexical tone perception as the number of channels increased: a simulation study of cochlear implant (Q46520940) (← links)
• Predictions of Speech Chimaera Intelligibility Using Auditory Nerve Mean-Rate and Spike-Timing Neural Cues (Q47875500) (← links)
• Temporal fine structure in cochlear implants: preliminary speech perception results in Cantonese-speaking implant users (Q50439250) (← links)
• Effects of Meditation on Temporal Processing and Speech Perceptual Skills in Younger and Older Adults (Q58919534) (← links)
• Effects of fine structure and extended low frequencies in pediatric cochlear implant recipients (Q83419037) (← links)
• A New Approach for Noise Suppression in Cochlear Implants: A Single-Channel Noise Reduction Algorithm (Q94560662) (← links)