1. The role of local and global processing in the recognition of living and nonliving things
- Author
-
Richard Thomas and Emer M. E. Forde
- Subjects
Male ,Visual perception ,Concept Formation ,Cognitive Neuroscience ,media_common.quotation_subject ,Experimental and Cognitive Psychology ,Discrimination Learning ,Behavioral Neuroscience ,Perception ,Reaction Time ,medicine ,Humans ,Semantic memory ,Attention ,Visual agnosia ,media_common ,Cued speech ,Information processing ,Recognition, Psychology ,Cognition ,medicine.disease ,Integrative agnosia ,Pattern Recognition, Visual ,Case-Control Studies ,Agnosia ,Female ,Psychology ,Photic Stimulation ,Cognitive psychology - Abstract
We report a study on a patient (DW) with integrative visual agnosia and a category-specific recognition impairment for living things. We assessed DW's local and global processing and tested if his integrative agnosia could have led directly to his category-specific impairment. The main findings were: (i) DW was faster at identifying local compared to global letters. (ii) DW showed no local-to-global (or global-to-local) interference effects in selective attention tasks. (iii) DW showed a congruency effect in a divided attention task, suggesting that, when his attention was cued to both levels, he could process information simultaneously and integrate local and global information. (iv) Controls were poorer at naming nonliving compared to living things when presented with silhouettes. These data suggest that local and global information are differentially weighted in the visual recognition of living and nonliving things, and that an impairment in processing the overall shape of an object can lead to a category-specific deficit for living things. Crucially, this implies that category-specific impairments do not necessarily reflect damage to the semantic system, and models of semantic memory based on this assumption need to be revised.
- Published
- 2006