• Listeners can understand frequency-shifted speech across a wide frequency range (Fu & Shannon, 1999). • We hypothesize that this ability can be explained in terms of listeners ’ sensitivity to statistical variatio
Objective: To explore combined acute effects of frequency shift and compression-expansion on speech ...
When a person listens to a context sentence with prominent higher frequencies, the subsequent vowel ...
Background: To assess hearing in response to speech, the envelope frequency following response (FFR)...
To study the effects of frequency shifts on vowel identification, a high-quality vocoder (STRAIGHT) ...
This study reports differential category retuning effect between [i] and [u]. Two groups of American...
It is commonly assumed that the vowel identification process is mainly driven by an underlying acoust...
Due to the coarticulation of vowels with consonants, the formant frequencies of U and I are lowe...
The compact representation of harmonic amplitudes in the sinusoidal coding of speech is an important...
Four experiments explored the relative contributions of spectral content and phonetic labeling in ef...
Vowel identification is influenced by various parameters which enhance or hinder perceptual processi...
The interpretation of vowel sounds depends on perceived characteristics of the speaker (e.g., averag...
Empirically-observed word frequency effects in regular sound change present a puzzle: how can high-f...
Empirically-observed word frequency effects in regular sound change present a puzzle: how can high-f...
The sound pressure level (SPL) of vowels received by a listener reflects several non-linguistic and ...
Vowel normalization in speech perception was investigated in three experiments. The range of the sec...
Objective: To explore combined acute effects of frequency shift and compression-expansion on speech ...
When a person listens to a context sentence with prominent higher frequencies, the subsequent vowel ...
Background: To assess hearing in response to speech, the envelope frequency following response (FFR)...
To study the effects of frequency shifts on vowel identification, a high-quality vocoder (STRAIGHT) ...
This study reports differential category retuning effect between [i] and [u]. Two groups of American...
It is commonly assumed that the vowel identification process is mainly driven by an underlying acoust...
Due to the coarticulation of vowels with consonants, the formant frequencies of U and I are lowe...
The compact representation of harmonic amplitudes in the sinusoidal coding of speech is an important...
Four experiments explored the relative contributions of spectral content and phonetic labeling in ef...
Vowel identification is influenced by various parameters which enhance or hinder perceptual processi...
The interpretation of vowel sounds depends on perceived characteristics of the speaker (e.g., averag...
Empirically-observed word frequency effects in regular sound change present a puzzle: how can high-f...
Empirically-observed word frequency effects in regular sound change present a puzzle: how can high-f...
The sound pressure level (SPL) of vowels received by a listener reflects several non-linguistic and ...
Vowel normalization in speech perception was investigated in three experiments. The range of the sec...
Objective: To explore combined acute effects of frequency shift and compression-expansion on speech ...
When a person listens to a context sentence with prominent higher frequencies, the subsequent vowel ...
Background: To assess hearing in response to speech, the envelope frequency following response (FFR)...