Critical bandwidth for phase discrimination in hearing-impaired listeners

Abstract

Monaural phase discrimination was evaluated in normal-hearing and hearing-impaired listeners as a function of the frequency separation among components in three-tone complexes. The phases of the center components of 100% sinusoidal amplitude-modulated (SAM) waveforms were shifted by 90 degrees to yield quasi-frequency-modulated (QFM) waveforms that had identical long-term spectra but different envelopes and temporal fine structure. Normal-hearing listeners can distinguish QFM waveforms from SAM waveforms as long as the modulation frequency (frequency separation between components) is less than about 40% of the carrier frequency (center component). Phase discrimination performance (d') was measured as a function of modulation frequency, and critical bandwidths for phase discrimination (CBphs) were specified as the modulation frequency corresponding to a performance index (d') of 1.0. In normal-hearing ears, CBphs increased with stimulus SPL. In hearing-impaired ears, CBphs estimates were equal to or narrower than normal when comparisons were made at the same SPLs; CBphs estimates from hearing-impaired ears were broader (better) than normal only when comparisons were made at equivalent SLs. Differences between CBphs estimates in normal-hearing and hearing-impaired ears are explained by level-dependent auditory filtering and the sensation levels at which comparisons are made, without the necessity to postulate abnormal tuning in hearing-impaired ears.