Speech perception involves recovering the phonetic form of speech from a dynamic auditory signal containing both time-varying and steady-state cues. We examined the roles of inferior frontal and superior temporal cortex in processing these aspects of auditory speech and nonspeech signals. Event-related functional magnetic resonance imaging was used to record activation in superior temporal gyrus (STG) and inferior frontal gyrus (IFG) while participants discriminated pairs of either speech syllables or nonspeech tones. Speech stimuli differed in either the consonant or the vowel portion of the syllable, whereas the nonspeech signals consisted of sinewave tones differing along either a dynamic or a spectral dimension. Analyses failed to ident...
Human speech perception results from neural computations that transform external acoustic speech sig...
This thesis investigated electrophysiological correlates of underlying brain activation at different...
The human superior temporal sulcus (STS) is responsive to visual and auditory information, including...
& The detection of speech in an auditory stream is a requisite first step in processing spoken l...
Primary auditory cortex ͑PAC͒, located in Heschl's gyrus ͑HG͒, is the earliest cortical level a...
The left superior temporal cortex shows greater responsiveness to speech than to non-speech sounds a...
The key question in understanding the nature of speech perception is whether the human brain has uni...
Speech processing in auditory cortex and beyond is a remarkable yet poorly understood faculty of the...
The temporal lobe in the left hemisphere has long been implicated in the perception of speech sounds...
Although humans can understand speech using the auditory modality alone, in noisy environments visua...
Despite a large body of research, we continue to lack a detailed account of how auditory processing ...
& It remains a matter of controversy precisely what kind of neural mechanisms underlie functiona...
Comprehending speech is one of the most important human behaviors, but we are only beginning to unde...
In the present study we investigated the functional organization of sublexical auditory perception w...
The supratemporal plane contains several functionally heterogeneous subregions that respond strongly...
Human speech perception results from neural computations that transform external acoustic speech sig...
This thesis investigated electrophysiological correlates of underlying brain activation at different...
The human superior temporal sulcus (STS) is responsive to visual and auditory information, including...
& The detection of speech in an auditory stream is a requisite first step in processing spoken l...
Primary auditory cortex ͑PAC͒, located in Heschl's gyrus ͑HG͒, is the earliest cortical level a...
The left superior temporal cortex shows greater responsiveness to speech than to non-speech sounds a...
The key question in understanding the nature of speech perception is whether the human brain has uni...
Speech processing in auditory cortex and beyond is a remarkable yet poorly understood faculty of the...
The temporal lobe in the left hemisphere has long been implicated in the perception of speech sounds...
Although humans can understand speech using the auditory modality alone, in noisy environments visua...
Despite a large body of research, we continue to lack a detailed account of how auditory processing ...
& It remains a matter of controversy precisely what kind of neural mechanisms underlie functiona...
Comprehending speech is one of the most important human behaviors, but we are only beginning to unde...
In the present study we investigated the functional organization of sublexical auditory perception w...
The supratemporal plane contains several functionally heterogeneous subregions that respond strongly...
Human speech perception results from neural computations that transform external acoustic speech sig...
This thesis investigated electrophysiological correlates of underlying brain activation at different...
The human superior temporal sulcus (STS) is responsive to visual and auditory information, including...