A. Rens Leeuw scite author profile

The role of different modulation frequencies in the speech envelope were studied by means of the manipulation of vowel-consonant-vowel (VCV) syllables. The envelope of the signal was extracted from the speech and the fine-structure was replaced by speech-shaped noise. The temporal envelopes in every critical band of the speech signal were notch filtered in order to assess the relative importance of different modulation frequency regions between 0 and 20 Hz. For this purpose notch filters around three center frequencies (8, 12, and 16 Hz) with three different notch widths (4-, 8-, and 12-Hz wide) were used. These stimuli were used in a consonant-recognition task in which ten normal-hearing subjects participated, and their results were analyzed in terms of recognition scores. More qualitative information was obtained with a multidimensional scaling method (INDSCAL) and sequential information analysis (SINFA). Consonant recognition is very robust for the removal of certain modulation frequency areas. Only when a wide notch around 8 Hz is applied does the speech signal become heavily degraded. As expected, the voicing information is lost, while there are different effects on plosiveness and nasality. Even the smallest filtering has a substantial effect on the transfer of the plosiveness feature, while on the other hand, filtering out only the low-modulation frequencies has a substantial effect on the transfer of nasality cues.

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Should a Hearing Aid in the Contralateral Ear Be Recommended for Children with a Unilateral Cochlear Implant?

Beijen¹,

Mylanus²,

Leeuw³

et al. 2008

Ann Otol Rhinol Laryngol

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A. Rens Leeuw

Sequential bilateral cochlear implantation in children: Parents’ Perspective and device use

Advantages of Directional Hearing Aid Microphones Related to Room Acoustics

Importance of temporal-envelope cues in consonant recognition

Should a Hearing Aid in the Contralateral Ear Be Recommended for Children with a Unilateral Cochlear Implant?

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