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Investigating alternative forms of clear speech: The effects of speaking rate and speaking mode on intelligibility
1.Bradlow, A. , Toretta, G. , and Pisoni, D. (1996). “Intelligibility of normal speech I. Global and fine-grained acoustic-phonetic talker characteristics,” Speech Commun. 20, 225–272.
2.Chen, F. R. (1980). “Acoustic characteristics and intelligibility of clear and conversational speech,” Master’s project, Mass. Inst. Tech., Cambridge, MA.
3.Choi, S. (1987). “The effect of pauses on the intelligibility of sentences,” Bachelor’s project, Mass. Inst. Tech., Cambridge, MA.
4.Crystal, T. H. , and House, A. S. (1982). “Segmental durations in connected-speech signals: Preliminary results,” J. Acoust. Soc. Am. 72, 705–716.
5.Crystal, T. H. , and House, A. S. (1988). “Segmental durations in connected-speech signals: Current results,” J. Acoust. Soc. Am. 83, 1553–1573.
6.Cutler, A. , and Butterfield, S. (1990). “Durational cues to word boundaries in clear speech,” Speech Commun. 9, 485–495.
7.Cutler, A. , and Butterfield, S. (1991). “Word boundary cues in clear speech: A supplementary report,” Speech Commun. 10, 335–353.
8.Han, M. S. (1966). “Acoustic-phonetic study on speech tempo,” Stud. Sounds 12, 70–83.
9.Kuhl, P. , Andruski, J. , Chistovich, I. , Chistovich, L. , Kozhevnikova, E. , Ryskina, V. , Stolyarova, E. , Sundberg, U. , and Lacerda, F. (1997). “Cross-language analysis of phonetic units in language addressed to infants,” Science 277, 684–686.
10.Licklider, J. , Hawley, M. , and Walking, R. (1955). “Influences of variations in speech intensity and other factors upon the speech spectrum,” J. Acoust. Soc. Am. 27, 207.
11.Nilsson, M. , Soli, S. D. , and Sullivan, J. A. (1994). “Development of the hearing in noise test for the measurement of speech reception thresholds in quiet and in noise,” J. Acoust. Soc. Am. 95, 1085–1099.
12.Payton, K. L. , Uchanski, R. M. , and Braida, L. D. (1994). “Intelligibility of conversational and clear speech in noise and reverberation for listeners with normal and impaired hearing,” J. Acoust. Soc. Am. 95, 1581–1592.
13.Picheny, M. A. , Durlach, N. I. , and Braida, L. D. (1985). “Speaking clearly for the hard of hearing. I. Intelligibility differences between clear and conversational speech,” J. Speech Hear. Res. 28, 96–103.
14.Picheny, M. A. , Durlach, N. I. , and Braida, L. D. (1986). “Speaking clearly for the hard of hearing. II. Acoustic characteristics of clear and conversational speech,” J. Speech Hear. Res. 29, 434–446.
15.Picheny, M. A. , Durlach, N. I. , and Braida, L. D. (1989). “Speaking clearly for the hard of hearing. III. An attempt to determine the contribution of speaking rate to differences in intelligibility between clear and conversational speech,” J. Speech Hear. Res. 32, 600–603.
16.Rosengard, P. (2000). Personal correspondence re: Poster. International Hearing Aid Conference, Lake Tahoe.
17.Schroeder, M. R. (1968). “Reference signal for signal quality studies,” J. Acoust. Soc. Am. 44, 1735–1736.
18.Uchanski, R. M. , Choi, S. , Braida, L. D. , Reed, C. M. , and Durlach, N. I. (1996). “Speaking clearly for the hard of hearing. IV. Further studies of the role of speaking rate,” J. Speech Hear. Res. 39, 494–509.
19.Zwicky, A. M. (1972). “On causal speech,” Papers from the Eighth Regional Meeting (Chicago Linguistic Society, Chicago), pp. 607–615.
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