Your search keyword '"II Joon Moon"' showing total 2 results

1. Optimal Combination of Neural Temporal Envelope and Fine Structure Cues to Explain Speech Identification in Background Noise.

Author

II Joon Moon, Jong Ho Won, Min-Hyun Park, Ives, D. Timothy, Kaibao Nie, Heinz, Michael G., Lorenzi, Christian, and Rubinstein, Jay T.

Subjects

*FINE structure (Physics), *ACOUSTICS research, *SPEECH perception, *ACOUSTIC nerve, *NEURONS

Abstract

The dichotomy between acoustic temporal envelope (ENV) and fine structure (TFS) cues has stimulated numerous studies over the past decade to understand the relative role of acoustic ENV and TFS in human speech perception. Such acoustic temporal speech cues produce distinct neural discharge patterns at the level of the auditory nerve, yet little is known about the central neural mechanisms underlying the dichotomy in speech perception between neural ENV and TFS cues. We explored the question of how the peripheral auditory system encodes neural ENV and TFS cues in steady or fluctuating background noise, and how the central auditory system combines these forms of neural information for speech identification. We sought to address this question by (1) measuring sentence identification in background noise for human subjects as a function of the degree of available acoustic TFS information and (2) examining the optimal combination of neural ENV and TFS cues to explain human speech perception performance using computational models of the peripheral auditory system and central neural observers. Speech-identification performance by human subjects decreased as the acoustic TFS information was degraded in the speech signals. The model predictions best matched human performance when a greater emphasis was placed on neural ENV coding rather than neural TFS. However, neural TFS cues were necessary to account for the full effect of background-noise modulations on human speech-identification performance. [ABSTRACT FROM AUTHOR]

Published

2014

2. The potential role of the cABR in assessment of normal hearing adults with inherited neuropathies.

Author

II Joon Moon, Ji Eun Choi, Yoon Sang Ji, Kyung Myun Lee, Byung-Ok Choi, and Sung Hwa Hong

Subjects

*AUDITORY neuropathy, *AUDITORY evoked response, *BRAIN stem, *CHARCOT-Marie-Tooth disease, *HEARING levels, *NOISE, *SPEECH perception, *ADULTS, *GENETICS

Abstract

Objectives: The aim of this study was to investigate 1) the auditory pathway function and 2) the potential role of the complex auditory brainstem response (cABR) in a group of normal hearing (NH) adults with inherited neuropathies. Material and methods: Thirty-five NH adults with Charcot- Marie-Tooth (CMT) disease and 48 heathy NH listeners participated. We assessed speech in noise perception and recorded ABRs to three speech syllables. We calculated FO amplitude and average phase-shift values. Results: CMT patients showed significantly higher SNR thresholds than control group. Speech in noise perception was significantly correlated with phase difference between /DA/ and /BA/ after controlling age, sex, and pure tone thresholds. Conclusions: While CMT patients had normal pure tone thresholds, they were difficult to understand in noisy background. Speech perception in noise ability was significantly correlated with subcortical auditory processing of speech [ABSTRACT FROM AUTHOR]

Published

2017