Speech comprehension includes both bottom-up and top-down processes, and imaging studies have isolated a frontal-temporal network of brain areas active during speech perception. However, the precise role of the various areas in this network during normal speech comprehension is not yet fully understood. In the present fMRI study, the signal-to-noise ratio (SNR) of spoken sentences was varied in 144 steps, and speech intelligibility was measured independently in order to study in detail its effect on the activation of brain areas involved in speech perception. Relative to noise alone, intelligible speech in noise evoked spatially extended activation in left frontal, bilateral temporal, and medial occipital brain regions. Increasing SNR led t...
Under real-life adverse listening conditions, the interdependence of the brain's analysis of languag...
The functional specificity of different brain areas recruited in auditory language processing was in...
The functional specificity of different brain areas recruited in auditory language processing was in...
Speech comprehension includes both bottom-up and top-down processes, and imaging studies have isolat...
When speech is degraded, word report is higher for semantically coherent sentences (e.g., her new sk...
There are divergent claims concerning the broad cortical organization of speechrecognition. One mod...
Speech comprehension is a complex human skill, the performance of which requires the perceiver to co...
In speech comprehension, the processing of auditory information and linguistic context are mutually ...
In speech comprehension, the processing of auditory information and linguistic context are mutually ...
Contains fulltext : 175531.pdf (publisher's version ) (Open Access)Despite a large...
We investigated how two distortions of the speech signal – added background noise and speech in an u...
The brain network underlying speech comprehension is usually described as encompassing fronto–tempor...
& The detection of speech in an auditory stream is a requisite first step in processing spoken l...
In two experiments using event-related functional magnetic resonance imaging we studied healthy adul...
A number of regions of the temporal and frontal lobes are known to be important for spoken language ...
Under real-life adverse listening conditions, the interdependence of the brain's analysis of languag...
The functional specificity of different brain areas recruited in auditory language processing was in...
The functional specificity of different brain areas recruited in auditory language processing was in...
Speech comprehension includes both bottom-up and top-down processes, and imaging studies have isolat...
When speech is degraded, word report is higher for semantically coherent sentences (e.g., her new sk...
There are divergent claims concerning the broad cortical organization of speechrecognition. One mod...
Speech comprehension is a complex human skill, the performance of which requires the perceiver to co...
In speech comprehension, the processing of auditory information and linguistic context are mutually ...
In speech comprehension, the processing of auditory information and linguistic context are mutually ...
Contains fulltext : 175531.pdf (publisher's version ) (Open Access)Despite a large...
We investigated how two distortions of the speech signal – added background noise and speech in an u...
The brain network underlying speech comprehension is usually described as encompassing fronto–tempor...
& The detection of speech in an auditory stream is a requisite first step in processing spoken l...
In two experiments using event-related functional magnetic resonance imaging we studied healthy adul...
A number of regions of the temporal and frontal lobes are known to be important for spoken language ...
Under real-life adverse listening conditions, the interdependence of the brain's analysis of languag...
The functional specificity of different brain areas recruited in auditory language processing was in...
The functional specificity of different brain areas recruited in auditory language processing was in...