Graeme Clark Collection

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Start date: 1980 × Type: Journal Article × Subject: cochlear implant × Subject: otolaryngology × Subject: speech processing ×

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Now showing 1 - 9 of 9
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    A multiple-channel cochlear implant: an evaluation using open-set CID sentences
    Clark, Graeme M. ; Tong, Yit Chow ; Martin, Lois F. A. ( 1981)
    A multiple-channel cochlear implant and speech processor have been used in two postlingually deaf adult patients with a total hearing loss, to enable them to perceive varying degrees of running speech. The results have been confirmed with open-set CID everyday sentence tests. Using the implant alone, the patients obtained 8% and 14% scores with pre-recorded material, and 34% and 36% scores for "live" presentations. This was equivalent to the perception of 35% of connected discourse. When the implant was used in conjunction with lipreading, improvements of 188% and 386% were obtained over lipreading alone, and the scores were 68% and 98% which were equivalent to the perception of 60% and 95% of connected discourse.
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    Speech results with a bilateral multi-channel cochlear implant subject for spatially separated signal and noise
    van Hoesel, Richard J. M. ; Clark, Graeme M. ( 1999)
    Speech tests in noise were administered to a bilaterally implanted cochlear implant subject. Performance for simultaneous use of two identical implants, with the same speech processing strategy on two independent standard clinical processors, was compared with that of the better performing monaural side alone. Speech was presented at an angle of 45 degrees toward one ear, with noise at 45 degrees toward the contralateral side. Tests were also administered for speech and noise reversed in location. When the speech signal was on the same side as the subject's better performing ear, monaural and binaural tests resulted in similar scores. When the speech was on the opposite side, however, the binaural condition showed significantly better speech scores. The results indicate that binaural implants can provide improved performance in noise when speech and noise arc spatially separated.
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    Comparison of the SPEAK (Spectral Maxima) and multipeak speech processing strategies and improved speech perception in background noise
    Clark, Graeme M. ; Whitford, L. ; Van Hoesel, R. ; McKay, C. M. ; McDermott, H. D. ; Seligman, P. ; Vandali, A. ; Pyman, B. C. ; Cowan, R. C. ( 1995)
    As more is known about speech processing for Cochlear Implant patients, results should continue to improve. It now appears possible that Cochlear Implant patients may, in some instances, reach performance levels that are better than those obtained by most severely deaf people who use hearing aids.
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    The development of the Melbourne/Cochlear multiple-channel cochlear implant for profoundly deaf children
    Clark, Graeme M. ; Busby, Peter A. ; Dowell, Richard C. ; Dawson, Pamella W. ; Pyman, Brian C. ; Webb, Robert L. ; Staller, Steven J. ; Beiter, Anne L. ; Brimacombe, Judith A. ( 1992)
    In 1978-79, a speech processing strategy which extracted the voicing (FO) and second formant (F2) frequencies and presented these as rate and place of stimulation respectively to residual auditory nerve fibres was developed for the University of Melbourne's prototype multiple-channel receiver-stimulator (Clark et aI1977, Clark et a11978, Tong et aI1980). This speech processing strategy was shown to provide post linguistically deaf adults with some open-set speech comprehension using electrical stimulation alone, and considerable help when used in combination with lipreading (Clark et al 1981).
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    Preliminary results with a six spectral maxima speech processor for The University of Melbourne/Nucleus multiple electrode cochlear implant
    McKay, Colette M. ; McDermott, Hugh J. ; VANDALI, ANDREW ; Clark, Graeme M. ( 1991)
    An improved sound processor for a multiple-channel cochlear implant hearing prosthesis has been developed. The spectral maxima sound processor (SMSP) extracts the six largest frequency components of speech and presents stimuli at a rate of 250 Hz to electrodes at positions selected on the basis of the spectral frequencies. It was designed for use initially with the advanced cochlear implant recently developed at the University of Melbourne, which is capable of high rate and quasi-simultaneous stimulation. The present study, however, was carried out with two subjects who have the more widely used 22-electrode implant produced commercially by Cochlear Pty Limited (formerly Nucleus Limited). Preliminary results comparing the performance of the SMSP with that of previous speech processing techniques (F0/F1/F2 strategy) are presented. The results indicate that the SMSP is capable of providing implanters with significantly greater information about speech.
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    Evaluation of a two-formant speech-processing strategy for a multichannel cochlear prosthesis
    Dowell, R. C. ; Seligman, P. M. ; Blamey, P. J. ; Clark, Graeme M. ( 1987)
    Initial results with the two-formant speech-processing strategy (F0FIF2) confirm the advantage of a multichannel cochlear prosthesis capable of stimulating at different sites within the cochlea. The successful presentation of two spectral components by varying the place of stimulation leads to the possibility of presenting further spectral information in this manner. Because virtually all multichannel implant patients demonstrate good "place" (electrode site) discrimination, these more refined coding strategies should lead to benefits for the majority of implantees. Already, with the F0FIF2 strategy, we have a system that appears to provide some effective auditory-alone communication ability for the average patient.
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    Speech processing for cochlear implant prostheses
    Millar, J. B. ; Tong, Y. C. ; Clark, Graeme M. ( 1984)
    The transformation of speech into electrical signals which can stimulate the auditory nerve in order to create hearing sensations that carry speech information depends on many factors. These include the limitations imposed by the current state-of-the-art in otological surgery, microelectronic and micromechanical technology, and knowledge of the functioning of the auditory system under both acoustic and electrical stimulation. Sufficient advances have been made in all these areas to enable several research centers to develop cochlear prostheses which give some hearing to certain totally deaf persons. The work of these centers towards the goal of full unaided speech perception via the prosthesis is examined and evaluated.
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    The preliminary clinical trial of a multichannel cochlear implant hearing prosthesis
    Clark, Graeme M. ; Crosby, P. A. ; Dowell, R. C. ; Kuzma, J. A. ; Money, D. K. ; Patrick, J. F. ; Seligman, P. M. ; Tong, Y. C. ( 1983)
    Abstract not available due to copyright.
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    A multiple-channel cochlear implant: a summary of results for two patients
    Clark, Graeme M. ; Tong, Yit Chow ( 1982)
    This report summarizes the results of the psychophysical and speech studies conducted on two patients with multiple-channel cochlear implants over an 18 month period at the University of Melbourne. The psychophysical results indicated that a suitable speech-processing strategy would be to convert the second formant frequency of speech to electrode position, the voicing frequency to pulse rate of electrical stimulation, and the acoustic intensity to current level. An evaluation of this strategy by means of a laboratory-based speech processor showed encouraging results, and a wearable speech processor was subsequently developed so that the patients could be benefited in their everyday life.