References
- American Academy of Audiology. 2003. American Academy of Audiology Pediatric Amplification Guidelines. Retrieved from http://www.audiology.org/resources/documentlibrary/Documents/pedamp.pdf
- American Academy of Audiology. 2006. American Academy of Audiology Guidelines for the Audiologic Management of Adult Hearing Impairment. Retrieved from http://www.audiology.org/resources/documentlibrary/Documents/haguidelines.pdf
- American National Standards Institute. 1994. Testing Hearing Aids with a Broadband Noise Signal, ANSI S3.42. New York: Acoustical Society of America.
- Beck D. & Duff J. 2007. Visible speech: A patient-centered clinical tool. Hearing Review. Retrieved from http://www.hearingreview.com/issues/articles/2007-01-03.asp
- Bisgaard N., Vlaming M. & Dahlquist M. 2010. Standard audiograms for the IEC 60118-15 measurement procedure. Trends Amp, 14, 113–120.
- Byrne D., Dillon H., Tran K., Arlinger S., Wibraham K. et al. 1994. An international comparison of long-term average speech spectra. J Acoust Soc Am, 96, 2108–2120.
- Cox R.M. & McDaniel D.M. 1989. Development of the speech intelligibility rating (SIR) test for hearing aid comparisons. J Speech Hear Res, 32, 347–352.
- Cox R.M. & Moore J.N. 1988. Composite speech spectrum for hearing-aid gain prescriptions. J Speech Hear Res, 31, 102–107.
- Cruz M., Oliveira L.R., Carandina L., Lima M.C.P., Cesar C.L.G. et al. 2009. Prevalence of self-reported hearing loss and attributed causes: A population-based study. Cad Saude Publica, Rio de Janeiro, 25, 1123–1131.
- Goldwave Inc. 2007. Goldwave. Newfoundland: Goldwave Inc.
- Hawkins D.B., Alavrez E.D. & Houlihan J.R. 1991. Reliability of three types of probe tube microphone measurements. Hearing Instruments, 42, 14–16.
- Henning R.W. & Bentler R. 2005. Compression-dependent differences in hearing-aid gain between speech and nonspeech input signals. Ear Hear, 26, 410–422.
- Holube I., Fredelake S., Vlaming M. & Kollmeier B. 2010. Development and analysis of an international speech test signal (ISTS). Int J Audiol, 49, 891–903.
- International Electrotechnical Commission. 2009. Electroacoustics - Hearing Aids - Part 15: Methods for Characterizing Signal Processing in Hearing Aids, IEC CD 60118-15. Geneva: IEC.
- Keidser G., Dillon H., Convery E. & O’Brien A. 2010. Differences between speech-shaped test stimuli in analysing systems and the effect on measured hearing-aid gain. Ear Hear, 31, 437–440.
- McDaniel D.M. & Cox R.M. 1992. Evaluation of the speech intelligibility rating (SIR) test for hearing-aid comparisons. J Speech Hear Res, 35, 686–693.
- Polonenko M., Scollie S., Moodie S., Seewald R., Laurnagaray D. et al. 2010. Fit to targets, preferred listening levels, and self reported outcomes for the DSL v5.0a hearing-aid prescription for adults. Int J Audiol, 49, 550–560.
- Scollie S.D. & Seewald R.C. 2002. Evaluation of electroacoustic test signals I: Comparison with amplified speech. Ear Hear, 23(5), 477–487.
- Scollie S.D., Seewald R.C., Cornelisse L.E. & Jenstad L.M. 1998. Validity and repeatability of level-independent HL to SPL transforms,Ear Hear, 19, 407–413.
- Stelmachowicz P.G., Mace A.L., Kopun J.G. & Carney E. 1993. Long-term and short-term characteristics of speech: Implications for hearing-aid selection for young children. J Speech Hear, 36, 609–620.
- Taucci R.A. & Bianchini E.M.G. 2007. Verificação da interferência das disfunções temporomandibulares na articulação da fala: queixas e caracterização dos movimentos mandibulares. Rev Soc Bras Fonoaudiol, 12, 274–280.
- Walter H. 1994. A Aventura das Linguas do Ocidente: A sua Origem, sua Historia, sua Geografia. Lisboa, Portugal: Terramar.