This proposal requests five-years of support for studies of binaural (two-ear) processing, with particular emphasis on listening to speech in multisource and reverberant environments. The primary motivation for this work is the difficulty some people experience when listening to speech in noisy environments. The work is primarily concerned with cases when multiple talkers are speaking at the same time as the target speaker and/or cases that have significant reflections off surfaces. It is often observed that abilities in these environments are compromised when one or both ears are not fully functioning and with the advancement of age;thus, the focus on the binaural hearing contributions to our abilities in difficult environments and the effects of aging. The proposed work includes a blend of experimental measurements and computational modeling of the binaural and spatial advantages in this "cocktail party environment." The measurement program is designed to separate the multiple factors that affect performance in this complex task, and the modeling both determines the degree to which current understanding of two-eared processing can explain empirical abilities and attempts to extend our understanding. Thus, we will be exploiting our history of binaural modeling at the signal-processing or black-box level as well as at the neurophysiological level. Work in all of these areas will include both normal hearing and impaired hearing measurements and models and will include the measurement and analysis of performance with hearing aids. This study includes specific attention to the distinctive difficulties that are often observed in elderly listeners. This work should lead to improved hearing aids as well as better understanding of the process of hearing in complex environments.
This project studies the perception of speech in complex environments where there are multiple sources, reflections from surfaces, and sounds that interfere with our understanding of speech from desirable sources. Specifically, we focus on the contribution of our abilities to operate in these environments using the small differences in the sounds reaching our two ears. These environments are difficult for hearing- impaired and elderly listeners and this work is designed to help to overcome these difficulties.
|Mi, Jing; Colburn, H Steven (2016) A Binaural Grouping Model for Predicting Speech Intelligibility in Multitalker Environments. Trends Hear 20:|
|Swaminathan, Jayaganesh; Mason, Christine R; Streeter, Timothy M et al. (2016) Role of Binaural Temporal Fine Structure and Envelope Cues in Cocktail-Party Listening. J Neurosci 36:8250-7|
|Best, Virginia; Mason, Christine R; Swaminathan, Jayaganesh et al. (2016) On the Contribution of Target Audibility to Performance in Spatialized Speech Mixtures. Adv Exp Med Biol 894:83-91|
|Spencer, Nathaniel J; Hawley, Monica L; Colburn, H Steven (2016) Relating interaural difference sensitivities for several parameters measured in normal-hearing and hearing-impaired listeners. J Acoust Soc Am 140:1783|
|Dong, Junzi; Colburn, H Steven; Sen, Kamal (2016) Cortical Transformation of Spatial Processing for Solving the Cocktail Party Problem: A Computational Model(1,2,3). eNeuro 3:|
|Chung, Yoojin; Delgutte, Bertrand; Colburn, H Steven (2015) Modeling binaural responses in the auditory brainstem to electric stimulation of the auditory nerve. J Assoc Res Otolaryngol 16:135-58|
|Wang, Le; Devore, Sasha; Delgutte, Bertrand et al. (2014) Dual sensitivity of inferior colliculus neurons to ITD in the envelopes of high-frequency sounds: experimental and modeling study. J Neurophysiol 111:164-81|
|Wan, Rui; Durlach, Nathaniel I; Colburn, H Steven (2014) Application of a short-time version of the Equalization-Cancellation model to speech intelligibility experiments with speech maskers. J Acoust Soc Am 136:768-76|
|Kidd Jr, Gerald; Mason, Christine R; Streeter, Timothy et al. (2013) Perceiving sequential dependencies in auditory streams. J Acoust Soc Am 134:1215-31|
|Brughera, Andrew; Dunai, Larisa; Hartmann, William M (2013) Human interaural time difference thresholds for sine tones: the high-frequency limit. J Acoust Soc Am 133:2839-55|
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