Crossmodal Space and Crossmodal AttentionCharles Spence, Jon Driver OUP Oxford, 2004年4月8日 - 323 頁 Many organisms possess multiple sensory systems, such as vision, hearing, touch, smell, and taste. The possession of such multiple ways of sensing the world offers many benefits. These benefits arise not only because each modality can sense different aspects of the environment, but also because different senses can respond jointly to the same external object or event, thus enriching the overall experience - for example, looking at an individual while listening to them speak. However, combining information from different senses also poses many challenges for the nervous system. In recent years there has been dramatic progress in understanding how information from different sensory modalities gets integrated in order to construct useful representations of external space; and in how such multimodal representations constrain spatial attention. Such progress has involved numerous different disciplines, including neurophysiology, experimental psychology, neurological work with brain-damaged patients, neuroimaging studies, and computational modelling. This volume brings together the leading researchers from all these approaches, to present the first integrative overview of this central topic in cognitive neuroscience. |
內容
Crossmodal spatial interactions in subcortical and cortical circuits | 25 |
A system of multimodal areas in the primate brain | 51 |
Neuropsychological evidence for multimodal representations of space near | 69 |
Multimodal spatial representations in the primate parietal lobe | 99 |
A computational neural theory of multisensory spatial representations | 123 |
The psychology of multimodal perception | 141 |
evidence from human performance | 179 |
Emiliano Macaluso Institute of Cognitive Neuroscience University College London | 212 |
Electrophysiology of human crossmodal spatial attention | 221 |
Functional imaging of crossmodal spatial representations and crossmodal | 247 |
Exogenous spatialcuing studies of human crossmodal attention | 277 |
John McDonald Department of Psychology Simon Fraser University Burnaby | 312 |
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常見字詞
activity Andersen audition auditory and visual auditory stimuli auditory stream auditory targets basis function behavioral Bertelson bimodal Chapter Cognitive congruency contralateral coordinates cortical crossmodal effects crossmodal interactions crossmodal links crossmodal spatial cuing different modalities Eimer experiment Experimental Brain Research extinction eye position eye-centered fixation fMRI Graziano head-centered hemifield human inputs intraparietal intraparietal sulcus ipsilesional Journal of Neurophysiology links in spatial Macaluso McGurk effect modality-specific modulation monkey movements multimodal multisensory integration multisensory neurons near-peripersonal space neural neurons orienting parietal cortex parietal lobe participants patients Perception and Psychophysics posture premotor cortex presented processing proprioception Psychophysics Radeau receptive fields reference frame relevant representation saccadic SC neurons selective attention sensory modalities side somatosensory sound Spence and Driver Stein studies superior colliculus supramodal tactile tactile receptive field tactile stimuli task temporal tion trials unimodal ventriloquism visual and auditory visual receptive field visual stimuli visual target visuotactile volume