The Contractor shall exert its best efforts to design, develop, and evaluate speech processors for use with implanted auditory prostheses in deaf humans. An essential component of all auditory prostheses is the speech processor whose function it is to convert the wideband electrical signal from the microphone to an information condensed signal or set of signals for driving the individual electrical implant stimulators in a manner to optimize speech recognition by the implant users. The Contractor will continue efforts to develop laboratory based and wearable speech processing systems; they will devise, evaluate, and refine speech processing techniques using human subjects with previously implanted auditory prostheses; determine processing factors which best relate to speech comprehension in environments with different signal to noise levels, and develop new speech processing strategies using this information. They will also study the effects of learning by using the developed wearable processors in previously implanted patients over an extended testing period. In addition, new test materials will be developed for more effective evaluation of the speech processors in deaf humans with implanted auditory prostheses.
| Wilson, Blake S; Lawson, Dewey T; Muller, Joachim M et al. (2003) Cochlear implants: some likely next steps. Annu Rev Biomed Eng 5:207-49 |
| Rubinstein, J T; Wilson, B S; Finley, C C et al. (1999) Pseudospontaneous activity: stochastic independence of auditory nerve fibers with electrical stimulation. Hear Res 127:108-18 |
| Lawson, D T; Wilson, B S; Zerbi, M et al. (1998) Bilateral cochlear implants controlled by a single speech processor. Am J Otol 19:758-61 |
| Wilson, B S; Finley, C C; Lawson, D T et al. (1997) Temporal representations with cochlear implants. Am J Otol 18:S30-4 |
