Add to ORKGVision, audition, and touch all code the space around us, or rather the things that are located in the space around us, in a different way. Yet, together our senses form a coherent spatial representation of our environment. In this chapter we will discuss how space is coded through vision, audition, and touch, and how spatial information from these senses is combined or integrated. We will continue by discussing neuropsychological impairments that affect spatial perception and multisensory integration, and finally how multisensory stimulation may help reduce or overcome some of these impairments
The last quarter of a century has seen a dramatic rise of interest in the spatial constraints on mul...
Spatial-hearing ability has been found to vary widely across listeners. A survey of the existing aud...
This review addresses the question of when spatial coincidence facilitates multisensory integration ...
Vision, audition, and touch all code the space around us, or rather the things that are located in t...
The localisation of auditory and tactile events is strongly affected by visual information, reflecti...
The localisation of auditory and tactile events is strongly affected by visual information, reflecti...
How do we know where environmental objects are located with respect to our body? How are we are able...
During our daily lives our senses are flooded with information. We can see, hear, feel, smell, and t...
We perceive and understand our environment using many sensory systems-vision, touch, hearing, taste,...
Our senses are not separated. Information received from one sensory modality may be linked with, or ...
To cope with the challenges posed by our dynamically changing environment we rely on a number of sen...
Multisensory integration is known to occur in many regions of the brain, and involves several aspect...
For perceiving the environment our brain uses multiple sources of sensory information derived from s...
This chapter discusses mechanisms of multimodal perception in the context of multimodal simulators a...
How do we perceive the space around us, locate objects within it, and make our way through it? What ...
The last quarter of a century has seen a dramatic rise of interest in the spatial constraints on mul...
Spatial-hearing ability has been found to vary widely across listeners. A survey of the existing aud...
This review addresses the question of when spatial coincidence facilitates multisensory integration ...
Vision, audition, and touch all code the space around us, or rather the things that are located in t...
The localisation of auditory and tactile events is strongly affected by visual information, reflecti...
The localisation of auditory and tactile events is strongly affected by visual information, reflecti...
How do we know where environmental objects are located with respect to our body? How are we are able...
During our daily lives our senses are flooded with information. We can see, hear, feel, smell, and t...
We perceive and understand our environment using many sensory systems-vision, touch, hearing, taste,...
Our senses are not separated. Information received from one sensory modality may be linked with, or ...
To cope with the challenges posed by our dynamically changing environment we rely on a number of sen...
Multisensory integration is known to occur in many regions of the brain, and involves several aspect...
For perceiving the environment our brain uses multiple sources of sensory information derived from s...
This chapter discusses mechanisms of multimodal perception in the context of multimodal simulators a...
How do we perceive the space around us, locate objects within it, and make our way through it? What ...
The last quarter of a century has seen a dramatic rise of interest in the spatial constraints on mul...
Spatial-hearing ability has been found to vary widely across listeners. A survey of the existing aud...
This review addresses the question of when spatial coincidence facilitates multisensory integration ...