Spatial hearing, which largely relies on binaural time/level cues, is a challenge for patients with asymmetric hearing. The degree of the deficit is largely variable, and better sound localization performance is frequently reported. Studies on the compensatory mechanism revealed that monaural level cues and monoaural spectral cues contribute to variable behavior in those patients who lack binaural spatial cues. However, changes in the monaural level cues have not yet been separately investigated. In this study, the use of the level cue in sound localization was measured using stimuli of 1 kHz at a fixed level in patients with single-sided deafness (SSD), the most severe form of asymmetric hearing. The mean absolute error (MAE) was calculate...
Human sound localization results primarily from the processing of binaural differences in sound leve...
Contains fulltext : 30082.pdf (publisher's version ) (Open Access)Human sound loca...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-speci...
Single-sided deafness (SSD) or profound unilateral hearing loss obligates the only serviceable ear t...
Objectives/Hypothesis: To evaluate spatial plasticity of the auditory cortex in single-sided deafnes...
The capacity of the auditory system to extract spatial information relies principally on the detecti...
Under certain conditions, sighted and blind humans can use echoes to discern characteristics of othe...
Those with profound sensorineural hearing loss from single sided deafness (SSD) generally experience...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
AbstractUnder certain conditions, sighted and blind humans can use echoes to discern characteristics...
Localizing a sound source involves the detection and integration of various spatial cues present in ...
Thesis (Ph.D.)--University of Washington, 2013Interaural level and time differences (ILD and ITD) ar...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
The encoding of auditory spatial acuity (measured as the precision to distinguish between two spatia...
Human sound localization results primarily from the processing of binaural differences in sound leve...
Contains fulltext : 30082.pdf (publisher's version ) (Open Access)Human sound loca...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-speci...
Single-sided deafness (SSD) or profound unilateral hearing loss obligates the only serviceable ear t...
Objectives/Hypothesis: To evaluate spatial plasticity of the auditory cortex in single-sided deafnes...
The capacity of the auditory system to extract spatial information relies principally on the detecti...
Under certain conditions, sighted and blind humans can use echoes to discern characteristics of othe...
Those with profound sensorineural hearing loss from single sided deafness (SSD) generally experience...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
AbstractUnder certain conditions, sighted and blind humans can use echoes to discern characteristics...
Localizing a sound source involves the detection and integration of various spatial cues present in ...
Thesis (Ph.D.)--University of Washington, 2013Interaural level and time differences (ILD and ITD) ar...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
The encoding of auditory spatial acuity (measured as the precision to distinguish between two spatia...
Human sound localization results primarily from the processing of binaural differences in sound leve...
Contains fulltext : 30082.pdf (publisher's version ) (Open Access)Human sound loca...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...