1) Single-unit recordings have shown that the superior temporal sulcus (STS) is a region where audio-visual (AV) integration takes place in non-human primates. 2) Inverse effectiveness has been seen in integrative cells in cats; with more degraded stimulus, neural enhancement increases (Meredith & Stein, 1988). This has yet to be shown neuronally in humans. 3) Human fMRI studies of AV integration have used both speech and object stimuli, but have not tested if the same underlying processes and brain areas are enlisted to integrate both. Degraded audio-visual speech and object stimuli increases multisensory enhancement in the BOLD fMRI signa
Electrophysiological studies in nonhuman primates and other mammals have shown that sensory cues fro...
Abstract Evidence from neurophysiological studies has shown the superior temporal sulcus (STS) to be...
The human superior temporal sulcus (STS) is responsive to visual and auditory information, including...
Most objects and events can be detected by more than one sensory system. Thus, to form a coherent pe...
Merging information from multiple senses provides a more reliable percept of our environment. Yet, l...
Processing of complex visual stimuli comprising facial movements, hand actions, and body movements i...
Combining fMRI and psychophysics, we investigated the neural mechanisms underlying the integration o...
Successful social interaction relies on multimodal integration of non-verbal emotional signals. The ...
The cortical integration of auditory and visual features is crucial for efficient object recognition...
To interact effectively with our environment, the human brain integrates information from multiple s...
Comprehending speech is one of the most important human behaviors, but we are only beginning to unde...
The brain effectively integrates multisensory information to enhance perception. For example, audiov...
Speech and non-speech stimuli differ in their (i) physical (spectro-temporal structure) and (ii) per...
Research on the neural basis of speech-reading implicates a network of auditory language regions inv...
Research on the neural basis of speech-reading implicates a network of auditory language regions inv...
Electrophysiological studies in nonhuman primates and other mammals have shown that sensory cues fro...
Abstract Evidence from neurophysiological studies has shown the superior temporal sulcus (STS) to be...
The human superior temporal sulcus (STS) is responsive to visual and auditory information, including...
Most objects and events can be detected by more than one sensory system. Thus, to form a coherent pe...
Merging information from multiple senses provides a more reliable percept of our environment. Yet, l...
Processing of complex visual stimuli comprising facial movements, hand actions, and body movements i...
Combining fMRI and psychophysics, we investigated the neural mechanisms underlying the integration o...
Successful social interaction relies on multimodal integration of non-verbal emotional signals. The ...
The cortical integration of auditory and visual features is crucial for efficient object recognition...
To interact effectively with our environment, the human brain integrates information from multiple s...
Comprehending speech is one of the most important human behaviors, but we are only beginning to unde...
The brain effectively integrates multisensory information to enhance perception. For example, audiov...
Speech and non-speech stimuli differ in their (i) physical (spectro-temporal structure) and (ii) per...
Research on the neural basis of speech-reading implicates a network of auditory language regions inv...
Research on the neural basis of speech-reading implicates a network of auditory language regions inv...
Electrophysiological studies in nonhuman primates and other mammals have shown that sensory cues fro...
Abstract Evidence from neurophysiological studies has shown the superior temporal sulcus (STS) to be...
The human superior temporal sulcus (STS) is responsive to visual and auditory information, including...