International audiencePerceptual representations are built through multisensory interactions underpinned by dense anatomical and functional neural networks that interconnect primary and associative cortical areas. There is compelling evidence that primary sensory cortical areas do not work in segregation, but play a role in early processes of multisensory integration. In this chapter, we firstly review previous and recent literature showing how multimodal interactions between primary cortices may contribute to refining perceptual representations. Secondly, we discuss findings providing evidence that, following peripheral damage to a sensory system, multimodal integration may promote sensory substitution in deprived cortical areas and favor ...
An increasing body of literature from functional imaging, electrophysiology and anatomy provides com...
Convergence of afferents from different sensory modalities has generally been thought to produce bim...
To interact effectively with our environment, the human brain integrates information from multiple s...
International audiencePerceptual representations are built through multisensory interactions underpi...
Our different senses provide complementary evidence about the environment and their interaction ofte...
Human observers typically integrate sensory signals in a statistically optimal fashion into a cohere...
As living organisms, we have the capability to explore our environments through different senses, ea...
This chapter opens by discussing functional and anatomical locations as well as neural networks of u...
When a major sense is lost, crossmodal plasticity substitutes functional processing from the remaini...
On our way through a town, the things we see can make us change the way we go. The things that we he...
Although much traditional sensory research has studied each sensory modality in isolation, there has...
In order to interact with the multisensory world that surrounds us, we must integrate various source...
Multisensory interactions have been demonstrated in a distributed neural system encompassing primary...
To interact effectively with our environment, the human brain integrates information from multiple s...
AbstractInteractions between different sensory modalities can be observed in unimodal areas of the c...
An increasing body of literature from functional imaging, electrophysiology and anatomy provides com...
Convergence of afferents from different sensory modalities has generally been thought to produce bim...
To interact effectively with our environment, the human brain integrates information from multiple s...
International audiencePerceptual representations are built through multisensory interactions underpi...
Our different senses provide complementary evidence about the environment and their interaction ofte...
Human observers typically integrate sensory signals in a statistically optimal fashion into a cohere...
As living organisms, we have the capability to explore our environments through different senses, ea...
This chapter opens by discussing functional and anatomical locations as well as neural networks of u...
When a major sense is lost, crossmodal plasticity substitutes functional processing from the remaini...
On our way through a town, the things we see can make us change the way we go. The things that we he...
Although much traditional sensory research has studied each sensory modality in isolation, there has...
In order to interact with the multisensory world that surrounds us, we must integrate various source...
Multisensory interactions have been demonstrated in a distributed neural system encompassing primary...
To interact effectively with our environment, the human brain integrates information from multiple s...
AbstractInteractions between different sensory modalities can be observed in unimodal areas of the c...
An increasing body of literature from functional imaging, electrophysiology and anatomy provides com...
Convergence of afferents from different sensory modalities has generally been thought to produce bim...
To interact effectively with our environment, the human brain integrates information from multiple s...