The goal of this research program is to develop a better understanding of fundamental aspects of human hearing by characterizing differences in decision processes for three tasks that use the same basic stimuli in different temporal configurations: intensity discrimination, increment detection, and forward masking. The classic and ubiquitous energy detector model of the decision process provides a good account of data for intensity discrimination. An alternative to energy detection, however, is required to account for results obtained in increment detection and forward masking, as well as the majority of other detection and discrimination tasks. Alternative models of the decision process, in particular """"""""template matching"""""""", are currently poorly defined and make vague predictions. We will characterize properties of the decision process in these tasks by determining the effects of variability in overall stimulus level and the effects of introducing background noise. Performance measures include adaptive thresholds, psychometric functions, direct measures of internal noise, and the correlation of specific features of stimuli with each subject's response on individual trials.
The specific aims are: 1) to determine the relation between peripheral nonlinearity and the slopes of psychometric functions; 2) to compare decision processes in intensity discrimination and increment detection; 3) to determine the effects of noise on intensity discrimination, increment detection and forward masking; and 4) to develop and compare direct measures of internal noise. This research effort will result in a better characterization of alternative decision processes, a detailed test of specific features of the decision process associated with each of the three basic psychophysical tasks considered here, measures of internal noise appropriate to each task, and a better understanding of the interaction of peripheral compression and internal noise in multi-stage models of masking.
Rodriguez, Joyce; Neely, Stephen T; Jesteadt, Walt et al. (2011) Comparison of distortion-product otoacoustic emission growth rates and slopes of forward-masked psychometric functions. J Acoust Soc Am 129:864-75 |
Valente, Daniel L; Joshi, Suyash N; Jesteadt, Walt (2011) Temporal integration of loudness measured using categorical loudness scaling and matching procedures. J Acoust Soc Am 130:EL32-7 |
Valente, Daniel L; Patra, Harisadhan; Jesteadt, Walt (2011) Relative effects of increment and pedestal duration on the detection of intensity increments. J Acoust Soc Am 129:2095-103 |
Messersmith, Jessica J; Patra, Harisadhan; Jesteadt, Walt (2010) The effect of narrow-band noise maskers on increment detection. J Acoust Soc Am 128:2973-87 |
Leibold, Lori J; Tan, Hongyang; Jesteadt, Walt (2009) Spectral weights for sample discrimination as a function of overall level. J Acoust Soc Am 125:339-46 |
Jesteadt, Walt; Schairer, Kim S; Nizami, Lance et al. (2009) Effects of external noise on detection of intensity increments. J Acoust Soc Am 126:1941-53 |
Schairer, Kim S; Messersmith, Jessica; Jesteadt, Walt (2008) Use of psychometric-function slopes for forward-masked tones to investigate cochlear nonlinearity. J Acoust Soc Am 124:2196-215 |
Leibold, Lori J; Tan, Hongyang; Khaddam, Samar et al. (2007) Contributions of individual components to the overall loudness of a multitone complex. J Acoust Soc Am 121:2822-31 |
Leibold, Lori J; Jesteadt, Walt (2007) Use of perceptual weights to test a model of loudness summation. J Acoust Soc Am 122:EL69 |
Jesteadt, Walt; Schairer, Kim S; Neff, Donna L (2005) Effect of variability in level on forward masking and on increment detection. J Acoust Soc Am 118:325-37 |
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