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Blast exposure in the military and its effects on sensory and cognitive auditory processing
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| 2 |
Switching streams across ears to evaluate informational masking of speech-on-speech
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In: Ear Hear (2020)
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Large-scale replication study reveals a limit on probabilistic prediction in language comprehension
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Effects of talker continuity and speech rate on auditory working memory
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Impoverished auditory cues limit engagement of brain networks controlling spatial selective attention
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In: Neuroimage (2019)
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Influence of talker discontinuity on cortical dynamics of auditory spatial attention
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Effects of dynamic range compression on spatial selective auditory attention in normal-hearing listeners
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Evaluating Source Separation Algorithms With Reverberant Speech
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Task-modulated “what” and “where” pathways in human auditory cortex
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The Perceptual Impact of Simulating Sources Within Reach of a Listener
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In: DTIC AND NTIS (2004)
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Abstract:
This report summarizes the results of the research performed at Boston University (and in collaboration with researchers at the Air Force Research Laboratory Hurnan Effectiveness Branch) on the acoustics and psychoacoustics of sound localization for sound sources near a listener's head, particularly in rooms where the effects of reverberation influence performance. The results of this work are unique in that little previous work has examined how the acoustics of the signals reaching a listener depend on the environment. Detailed analysis of the acoustic signals reaching a listener in a classroom demonstrate that the listener location relative to nearby walls has a dramatic impact on spatial acoustic cues. Source location relative to the listener also has a large impact; distortion of spatial cues generally grows with source distance and with source laterality. The ability to detect and understanding a sound source in the presence of a masker sound source improves when the competing sources are in different source locations. Results studying the effects of this "spatial unmasking" for nearby sources shows that the large interaural level differences that arise for nearby sources have an important influence on spatial unmasking. Furthermore, the influence of spatial unmasking decreases with growing levels of reverberant energy if the masker is a steady-state signal. However, the unmasking is robust in cases where the masking source is speech. The results suggest that even noisy, distorted spatial cues are sufficient to mediate competition between competing sources that are spectro-temporally complex, conditions in which "informational masking" dominates behavior.
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Keyword:
*ACOUSTIC SIGNALS; *SPEECH; Acoustics; AIR FORCE FACILITIES; AIR FORCE RESEARCH; ENERGY; IMPACT; LABORATORIES; Linguistics; MASKING; PE61102F; PERCEPTION; PSYCHOACOUSTICS; REVERBERATION; SIGNALS; SOUND; SOUND GENERATORS; SOURCES; STEADY STATE; Voice Communications; WUAFRL2313AX
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URL: http://www.dtic.mil/docs/citations/ADA422278
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA422278
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