Add to ORKGUnderstanding how the brain extracts and combines temporal structure (rhythm) information from events presented to different senses remains unresolved. Many neuroimaging beat perception studies have focused on the auditory domain and show the presence of a highly regular beat (isochrony) in "auditory" stimulus streams enhances neural responses in a distributed brain network and affects perceptual performance. Here, we acquired functional magnetic resonance imaging (fMRI) measurements of brain activity while healthy human participants performed a visual task on isochronous versus randomly timed "visual" streams, with or without concurrent task-irrelevant sounds. We found that visual detection of higher intensity oddball targets was better fo...
Numerous studies have demonstrated that the structural and functional differences between profession...
The ability to use temporal relationships between cross-modal cues facilitates perception and behavi...
How we measure time and integrate temporal cues from different sensory modalities are fundamental qu...
This thesis investigates the influence of temporal pattern, both within and between unisensory stimu...
How we measure time and integrate temporal cues from different sensory modalities are fundamental qu...
AbstractHow we measure time and integrate temporal cues from different sensory modalities are fundam...
Perception of sub-second auditory event timing supports multisensory integration, and speech and mus...
Perception of sub-second auditory event timing supports multisensory integration, and speech and mus...
r r Abstract: The brain seeks to combine related inputs from different senses (e.g., hearing and vis...
At any given moment our sensory systems receive multiple, often rhythmic, inputs from the environmen...
Numerous studies have demonstrated that the structural and functional differences between profession...
When listening to auditory rhythms, such as in music, most people spontaneously and easily perceive ...
At any given moment our sensory systems receive multiple, often rhythmic, inputs from the environmen...
Auditory signals (A) are perceived as lasting longer than visual signals (V) of the same physical du...
Auditory signals (A) are perceived as lasting longer than visual signals (V) of the same physical du...
Numerous studies have demonstrated that the structural and functional differences between profession...
The ability to use temporal relationships between cross-modal cues facilitates perception and behavi...
How we measure time and integrate temporal cues from different sensory modalities are fundamental qu...
This thesis investigates the influence of temporal pattern, both within and between unisensory stimu...
How we measure time and integrate temporal cues from different sensory modalities are fundamental qu...
AbstractHow we measure time and integrate temporal cues from different sensory modalities are fundam...
Perception of sub-second auditory event timing supports multisensory integration, and speech and mus...
Perception of sub-second auditory event timing supports multisensory integration, and speech and mus...
r r Abstract: The brain seeks to combine related inputs from different senses (e.g., hearing and vis...
At any given moment our sensory systems receive multiple, often rhythmic, inputs from the environmen...
Numerous studies have demonstrated that the structural and functional differences between profession...
When listening to auditory rhythms, such as in music, most people spontaneously and easily perceive ...
At any given moment our sensory systems receive multiple, often rhythmic, inputs from the environmen...
Auditory signals (A) are perceived as lasting longer than visual signals (V) of the same physical du...
Auditory signals (A) are perceived as lasting longer than visual signals (V) of the same physical du...
Numerous studies have demonstrated that the structural and functional differences between profession...
The ability to use temporal relationships between cross-modal cues facilitates perception and behavi...
How we measure time and integrate temporal cues from different sensory modalities are fundamental qu...