The ability to locate and track sounds in the three-dimensional world is essential for normal communication and navigation. When that ability is degraded, as with many types of hearing loss, communication is significantly disrupted. The long-term goal of this project is a complete understanding of the mechanisms and processes involved in human spatial hearing. Research conducted during previous funding periods has focused on issues related to the localization of single stationary sound sources in anechoic environments. Much has been learned from this research about the nature of the cues for sound direction and how those cues are used by human listeners. The research proposed in this application both extends and elaborates the earlier localization studies and moves into new areas such as the perception of sound source motion and the perception of source distance. The proposed methods include the virtual auditory space (VAS) technique, originally developed in the laboratory during previous funding periods, and a variant of the """"""""conditioned-on-a-single-stimulus"""""""" (COSS) procedure, which can give quantitative estimates of the perceptual weight given by individual listeners to the various spatial cues. The new movement and distance studies will provide basic data on the discriminately and relative weighting of the various cues for movement and distance in several different stimulus conditions. The proposed localization experiments will address unanswered questions about processing of spectral cues and interaural delay cues and, in particular, about the relative weights assigned to these cues in different localization settings.

Project Start
2001-03-01
Project End
2002-02-28
Budget Start
Budget End
Support Year
26
Fiscal Year
2001
Total Cost
$230,631
Indirect Cost
Name
University of Wisconsin Madison
Department
Type
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Ruhland, Janet L; Yin, Tom C T; Tollin, Daniel J (2013) Gaze shifts to auditory and visual stimuli in cats. J Assoc Res Otolaryngol 14:731-55
Karino, Shotaro; Smith, Philip H; Yin, Tom C T et al. (2011) Axonal branching patterns as sources of delay in the mammalian auditory brainstem: a re-examination. J Neurosci 31:3016-31
Rhode, William S; Roth, G Linn; Recio-Spinoso, Alberto (2010) Response properties of cochlear nucleus neurons in monkeys. Hear Res 259:1-15
Moore, Jordan M; Tollin, Daniel J; Yin, Tom C T (2008) Can measures of sound localization acuity be related to the precision of absolute location estimates? Hear Res 238:94-109
Rhode, W S (2008) Response patterns to sound associated with labeled globular/bushy cells in cat. Neuroscience 154:87-98
Reale, R A; Calvert, G A; Thesen, T et al. (2007) Auditory-visual processing represented in the human superior temporal gyrus. Neuroscience 145:162-84
Tollin, Daniel J; Yin, Tom C T (2005) Interaural phase and level difference sensitivity in low-frequency neurons in the lateral superior olive. J Neurosci 25:10648-57
Zahorik, Pavel (2002) Direct-to-reverberant energy ratio sensitivity. J Acoust Soc Am 112:2110-7
Zahorik, Pavel (2002) Assessing auditory distance perception using virtual acoustics. J Acoust Soc Am 111:1832-46
Langendijk, E H; Kistler, D J; Wightman, F L (2001) Sound localization in the presence of one or two distracters. J Acoust Soc Am 109:2123-34

Showing the most recent 10 out of 18 publications