Synthetic speech perception experiments may make use of several acoustic dimensions in order to adequately model listeners' perception; however, the number of stimuli increases exponentially as dimensions are added. A relatively large number of identification responses per stimulus are needed in the vicinity of category boundaries in order to model the boundaries with reasonable accuracy. Fewer responses per stimulus are needed to model portions of the stimulus space where a single response category predominates. Rather than collecting the same number of responses for each stimulus, an experiment can therefore be shortened via adaptive sampling. An adaptive sampling procedure is described. After an initial pass through the stimuli, the procedure uses a logistic regression model to select stimuli to resample in subsequent rounds. Results of simulations indicated that the number of trials in the experiment could be reduced by a third without substantially affecting the results.
[1]
S. Haberman.
Analysis of qualitative data
,
1978
.
[2]
Terrance M. Nearey,et al.
Modeling the role of inherent spectral change in vowel identification
,
1986
.
[3]
P. Iverson,et al.
Vowel normalization for accent: an investigation of best exemplar locations in northern and southern British English sentences.
,
2004,
The Journal of the Acoustical Society of America.
[4]
T. M. Nearey,et al.
Speech perception as pattern recognition.
,
1997,
The Journal of the Acoustical Society of America.
[5]
H. Levitt.
Transformed up-down methods in psychoacoustics.
,
1971,
The Journal of the Acoustical Society of America.
[6]
Terrance M. Nearey,et al.
The segment as a unit of speech perception
,
1990
.