Auditory nerve single-unit population studies have demonstrated that phase-locking plays a
dominant role in the neural encoding of the spectrum of speech sounds. Given this, it was …

Auditory nerve single-unit population studies have demonstrated that phase-locking plays a
dominant role in the neural encoding of the spectrum of speech sounds. Since the scalp …

Auditory nerve single-unit population studies have demonstrated that phase locking plays a
dominant role in the neural encoding of steady-state speech sounds. Recently, we have …

Auditory nerve single-unit studies have demonstrated that phase-locking plays an important
role in the neural encoding of the spectrum of speech-like sounds. Recently, it has been …

Auditory nerve single-unit population studies have demonstrated that phase-locking plays a
dominant role in the neural encoding of both the spectrum and voice pitch of speech sounds …

Objective: Listeners with sensorineural hearing loss (SNHL) typically experience reduced
speech perception, which is not completely restored with amplification. This likely occurs …

The frequency-following response (FFR) is an auditory-evoked response recorded at the
scalp that captures the spectrotemporal properties of tonal stimuli. Previous investigations …

The frequency following response (FFR), a scalp-recorded measure of phase-locked
brainstem activity, is often assumed to reflect the pitch of sounds as perceived by humans. In …

Frequency-following responses (FFRs) were recorded to two naturally produced vowels
(/a/and/i/) in normal hearing subjects. A digitally implemented Fourier analyzer was used to …

Objective: The frequency-following response (FFR) is a neurophonic potential used to
assess auditory neural encoding at subcortical stages. Despite the FFR's empirical and …