The Spectral Center of Gravity Effect and Auditory Filter Bandwidth

<div class="line" id="line-41"> The spectral center of gravity refers to a listener&rsquo;s averaging of frequency and intensity components when formant peaks in a speechlike signal are separated by 3.5 Bark units or less. In this paper a total of 18 synthetic vowels whose spectra approximated /ae/ or /inverted vee/ were generated digitally; each stimulus contained the first 40 harmonics of a 100&hyphen;Hz fundamental. Nine spectra contained three formants, while the balance contained only two. Subjects with normal hearing and mild high&hyphen;frequency hearing loss above 3000 Hz were instructed to identify synthetic vowels as either /ae/ or /inverted vee/ as <i> F </i> 2 frequency was varied between nine different values in 100&hyphen;Hz steps for both the two&hyphen;formant and three&hyphen;formant stimuli. Probit analysis indicated that the normal&hyphen;hearing subjects identified stimuli more consistently than the mildly hearing&hyphen;impaired listeners across <i> F </i> 2 frequencies for three&hyphen;formant than for two&hyphen;formant spectra. The <i> F </i> 2 frequency corresponding to the perceived increase in vowel frontness occurred at a lower frequency for normal&hyphen;hearing listeners. Auditory filter bandwidth was negatively correlated with the <i> F </i> 3&minus; <i> F </i> 2 Bark difference. Results suggest that spectral averaging may help listeners disambiguate confusing speech signals.</div>