Research into the anatomical substrates and "principles" for integrating inputs from separate sensory surfaces has yielded divergent findings. This suggests that multisensory integration is flexible and context dependent and underlines the need for dynamically adaptive neuronal integration mechanisms. We propose that flexible multisensory integration can be explained by a combination of canonical, population-level integrative operations, such as oscillatory phase resetting and divisive normalization. These canonical operations subsume multisensory integration into a fundamental set of principles as to how the brain integrates all sorts of information, and they are being used proactively and adaptively. We illustrate this proposition by unif...
There have recently been considerable advances in our understanding of the neuronal mechanisms under...
Multisensory integration involves a host of different cognitive processes, occurring at different st...
SummaryIt has been suggested that synchronization of neural activity in distinct areas of the brain ...
Research into the anatomical substrates and “principles” for integrating inputs from separate sensor...
Research into the anatomical substrates and "principles" for integrating inputs from separate sensor...
Research into the anatomical substrates and "principles'' for integrating inputs from separate senso...
We perceive our natural environment via multiple senses. How does our mind and brain integrate these...
Behaviour, language, and reasoning are expressions of neural functions par excellence, as the brain ...
Surrounded by multiple objects and events, receiving multisensory stimulation, our brain must sort t...
In the mammalian brain, information processing in sensory modalities and global mechanisms of multis...
Our senses are not separated. Information received from one sensory modality may be linked with, or ...
Contains fulltext : 241052.pdf (Publisher’s version ) (Open Access
AbstractRecent research on multisensory perception suggests a number of general principles for cross...
Sensory information can interact to impact perception and behavior. Foods are appreciated according ...
Multisensory integration (MSI) occurs in a variety of brain areas, spanning cortical and subcortical...
There have recently been considerable advances in our understanding of the neuronal mechanisms under...
Multisensory integration involves a host of different cognitive processes, occurring at different st...
SummaryIt has been suggested that synchronization of neural activity in distinct areas of the brain ...
Research into the anatomical substrates and “principles” for integrating inputs from separate sensor...
Research into the anatomical substrates and "principles" for integrating inputs from separate sensor...
Research into the anatomical substrates and "principles'' for integrating inputs from separate senso...
We perceive our natural environment via multiple senses. How does our mind and brain integrate these...
Behaviour, language, and reasoning are expressions of neural functions par excellence, as the brain ...
Surrounded by multiple objects and events, receiving multisensory stimulation, our brain must sort t...
In the mammalian brain, information processing in sensory modalities and global mechanisms of multis...
Our senses are not separated. Information received from one sensory modality may be linked with, or ...
Contains fulltext : 241052.pdf (Publisher’s version ) (Open Access
AbstractRecent research on multisensory perception suggests a number of general principles for cross...
Sensory information can interact to impact perception and behavior. Foods are appreciated according ...
Multisensory integration (MSI) occurs in a variety of brain areas, spanning cortical and subcortical...
There have recently been considerable advances in our understanding of the neuronal mechanisms under...
Multisensory integration involves a host of different cognitive processes, occurring at different st...
SummaryIt has been suggested that synchronization of neural activity in distinct areas of the brain ...