Temporal integration in absolute identification of musical pitch

Abstract

The effect of stimulus duration on absolute identification of musical pitch was measured in a single-interval 12-alternative forced-choice task. Stimuli consisted of pure tones selected randomly on each trial from a set of 60 logarithmically spaced musical note frequencies from 65.4 to 1975.5Hz (C2-B6). Stimulus durations were 5, 10, 25, 50, 100, and 1000ms. Six absolute-pitch musicians identified the pitch of pure tones without feedback, reference sounds, or practice trials. Results showed that a 5ms stimulus is sufficient for producing statistically significant above chance performance. Performance monotonically increased up to the longest duration tested (1000ms). Higher octave stimuli produced better performance, though the rate of improvement declined with increasing octave number. Normalization by the number of waveform cycles showed that 4cycles are sufficient for absolute-pitch identification. Restricting stimuli to a fixed-cycle waveform instead of a fixed-duration still produced monotonic improvements in performance as a function of stimulus octave, demonstrating that better performance at higher frequencies does not exclusively result from a larger number of waveform cycles. Several trends in the data were well predicted by an autocorrelation model of pitch extraction, though the model outperformed observed performance at short durations suggesting an inability to make optimal use of available periodicity information in very brief tones.