Abstract
Listeners discriminated between 6-tone rhythmic patterns that differed only in the delay of the temporal position of one of the tones. On each trial, feedback was given and the subject’s performance determined the amount of delay on the next trial. The 6 tones of the patterns marked off 5 intervals. In the first experiment, patterns comprised 3 “short” and 2 “long” intervals: 12121, 21121, and so forth, where the long (2) was twice the length of a short (1). In the second experiment, patterns were the complements of the patterns in the first experiment and comprised 2 shorts and 3 longs: 21212, 12212, and so forth. Each pattern was tested 45 times (5 positions of the delayed tone × 3 tempos × 3 replications). Consistent with previous work on simple interval discrimination, absolute discrimination (Δt in milliseconds) was poorer the longer the intervals (i.e., the slower the tempo). Measures of relative discrimination (Δt/t,wheret was the short interval, the long interval, or the average of 2 intervals surrounding the delayed tone) were better the slower the tempo. Beyond these global results, large interactions of pattern with position of the delayed tone and tempo suggest that different models of performance are needed to explain behavior at the different tempos. A Weber’s law model fit the slow-tempo data better than did a model based on positions of “natural accent” (Povel & Essens, 1985).
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References
Abel, S. M. (1972). Duration discrimination of noise and tone bursts.Journal of the Acoustical Society of America,51, 1219–1223.
Bharucha, J. J., &Pryor, J. H. (1986). Disrupting the isochrony underlying rhythm: An asymmetry indiscrimination.Perception & Psychophysics,40, 137–141.
Boltz, M., &Jones, M. R. (1986). Does rule recursion make melodies easier to produce? If not, what does?Cognitive Psychology,18, 389–431.
Bregman, A. S., &Campbell, J. (1971). Primary auditory stream segregation and perception of order in rapid sequences of tones.Journal of Experimental Psychology,89, 244–249.
Creelman, C. D. (1962). Human discrimination of auditory duration.Journal of the Acoustical Society of America,34, 582–593.
Dowling, W. J. (1968).Rhythmic fission and perceptual organization of tone sequences. Unpublished doctoral dissertation, Harvard University, Cambridge, MA.
Dowling, W. J., &Harwood, D. L. (1986).Music cognition. Orlando, FL: Academic Press.
Elliott, L. (1962). Backward and forward masking of probe tones of different frequencies.Journal of the Acoustical Society of America,34, 1116–1117.
Fitzgibbons, P. J., Pollatsek, A., &Thomas, I. B. (1974). Detection of temporal gaps within and between perceptual tonal groups.Perception & Psychophysics,16, 522–528.
Fourakis, M., &Monahan, C. B. (1988). Effects of metrical foot structure on syllable timing.Language & Speech,31, 283–306.
Fraisse, P. (1963).The psychology of time. New York: Harper &Row.
Fraisse, P. (1982). Rhythm and tempo, In D. Deutsch (Ed.),The psychology of music (pp. 149–180). New York: Academic Press.
Getty, D. J. (1975). Discrimination of short temporal intervals: A comparison of two models.Perception & Psychophysics,18, 1–8.
Grant, K. W. (1987). Identification of intonation contours by normally hearing and profoundly hearing-impaired listeners.Journal of the Acoustical Society of America,82, 1172–1178.
Handel, S., &Lawson, G. R. (1983). The contextual nature of rhythmic interpretation.Perception & Psychophysics,34, 103–120.
Handel, S., &Oshinsky, J. S. (1981). The meter of syncopated auditory polyrhythms.Perception & Psychophysics,30, 1–9.
Hirsh, I. J., Monahan, C. B., Grant, K. W., &Singh, P. G. (1990). Studies in auditory timing: 1. Simple patterns.Perception & Psychophysics,47, 215–226.
Killeen, P. R., &Weiss, N. A. (1987). Optimal timing and the Weber function.Psychological Review,94, 455–468.
Kristofferson, A. B. (1980). A quantal step function in duration discrimination.Perception & Psychophysics,27, 300–306.
Levitt, H. (1971). Transformed up-down methods in psychophysics.Journal of the Acoustical Society of America,49, 467–477.
Longuet-Higgins, H. C., &Lee, C. S. (1982). The perception of musical rhythms.Perception,11, 115–128.
Martin, J. G. (1972). Rhythmic (hierarchical) versus serial structure in speech and other behavior.Psychological Review,79, 487–509.
Monahan, C. B. (1984). Parallels between pitch and time: The determinants of musical space.Dissertation Abstracts International,45, 1942B. (University Microfilms No. 84–20, 214)
Monahan, C. B., &Carterette, E. C. (1985). Pitch and duration as determinants of musical space.Music Perception,3, 1–32.
Monahan, C. B., Kendall, R. A., &Carterette, E. C. (1987). The effect of melodic and temporal contour on recognition memory for pitch change.Perception & Psychophysics,41, 576–600.
Pollack, I. (1967). Asynchrony: The perception of temporal gaps within periodic auditory pulse patterns.Journal of the Acoustical Society of America,42, 1335–1340.
Povel, D.-J. (1981). Interval representation of simple temporal patterns.Journal of Experimental Psychology: Human Perception & Performance,7, 3–18.
Povel, D.-J. (1984). A theoretical framework for rhythm perception.Psychological Research,45, 315–337.
Povel, D.-J., &Essens, P. (1985). Perception of temporal patterns.Music Perception,2, 411–440.
Povel, D.-J., &Okkerman, H. (1981). Accents in equitone sequences.Perception & Psychophysics,30, 565–572.
Royer, F. L., &Robin, D. A. (1986). On the perceived unitization of repetitive auditory patterns.Perception & Psychophysics,39, 9–18.
Shields, J. L., McHugh, R., &Martin, J. G. (1974). Reaction time to phoneme targets as a function of rhythmic cues in continuous speech.Journal of Experimental Psychology,102, 250–255.
Small, A. M., &Campbell, R. A. (1962). Temporal differential sensitivity for auditory stimuli.American Journal of Psychology,75, 401–410.
Steedman, M. J. (1977). The perception of musical rhythm and metre.Perception,6, 555–570.
Sturges, P. T., &Martin, J. G. (1974). Rhythmic structure in auditory temporal pattern perception and immediate memory.Journal of Experimental Psychology,102, 377–383.
Thomassen, J. M. (1982). Melodic accent: Experiments and a tentative model.Journal of the Acoustical Society of America,71, 1596–1605.
van Noorden, L. P. A. S. (1975).Temporal coherence in the perception of tone sequences. Unpublished doctoral dissertation, Institute for Perceptual Research, Eindhoven, The Netherlands.
Yeston, M. (1976).The stratification of musical rhythm. New Haven, CT: Yale University Press.
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This research was supported by Air Force Grant AFOSR-87-0382 to the Central Institute for the Deaf, and by Washington University, where Ira Hirsh is Distinguished University Professor.
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Monahan, C.B., Hirsh, I.J. Studies in auditory timing: 2. Rhythm patterns. Perception & Psychophysics 47, 227–242 (1990). https://doi.org/10.3758/BF03204998
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DOI: https://doi.org/10.3758/BF03204998