Categorization versus distance: Hemispheric differences for processing spatial information

Hellige, Joseph B.; Michimata, Chikashi

doi:10.3758/bf03202638

Cited by 191 publications

(174 citation statements)

References 19 publications

(40 reference statements)

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“…In a previous study , we demonstrated baboon's ability to evaluate the distance between line-dot stimuli of the Hellige and Michimata's type (Hellige and Michimata, 1989). The aim of the present research was to extend our finding, by controlling if baboons can categorize line -dot stimuli on an 'above/below' basis.…”

Section: Introductionmentioning

confidence: 52%

“…Although the positive results on pigeons (Kirkpatrick-Steger and Wasserman, 1996) and chimpanzees (Hopkins and Morris, 1989) suggest the use of abstract spatial concepts, these results must be considered with caution, as the authors did not check if the animals could transfer their abilities to either novel stimuli or show them in novel experimental contexts. Hellige and Michimata (1989) and Kosslyn et al (1989) examined performance of human participants when evaluating distances and topological relations. Using stimuli made of a line and a dot, these studies suggested that two types of spatial representations are used in humans.…”

Section: Introductionmentioning

confidence: 99%

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Processing of above/below categorical spatial relations by baboons (Papio papio)

Dépy¹,

Fagot

Vauclair

1999

Behavioural Processes

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Three video-formatted experiments investigated the categorization of 'above' and 'below' spatial relations in baboons (Papio papio). Using an identity matching-to-sample task, six baboons correctly matched line -dot stimuli based on the 'above' or 'below' location of the dot relative to the line (Experiment 1). Positive transfer of performance was then observed when the line-dot distance depicted in the sample stimulus differed from that of the two comparison stimuli (Experiment 2). Using a go/nogo procedure, two baboons were further trained to discriminate whether a 'B' character was displayed 'above' or 'below' a '3' character (Experiment 3). After training, a positive transfer of performance was observed with the same type of stimuli depicted in different type fonts. Altogether, these results suggest that baboons may form conceptual representations of 'above' and 'below' spatial relations, and categorize visual forms on that basis.

show abstract

Section: Introductionmentioning

confidence: 52%

Section: Introductionmentioning

confidence: 99%

Processing of above/below categorical spatial relations by baboons (Papio papio)

Dépy¹,

Fagot

Vauclair

1999

Behavioural Processes

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show abstract

“…absolute distance) (e.g. [29,35,36]). One crucial difference between these types of spatial relations is that the former is reference frame dependent (e.g.…”

Section: Discussionmentioning

confidence: 99%

“…above/below) or metric (distance) terms (e.g. [1,29,36,40,60]), with left hemisphere processing more categorical and right hemisphere processing more metric in nature. Finally, the hemispheres also seem to differ in the extent to which they direct attention to global (whole object) or local (object part/feature) aspects of visual stimuli (e.g.…”

Section: Introductionmentioning

confidence: 99%

Picture the difference: electrophysiological investigations of picture processing in the two cerebral hemispheres

2002

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The nature of semantic memory and the role of the two cerebral hemispheres in meaning processing were examined using event-related brain potentials (ERPs) elicited by pictures in sentences. Participants read sentence pairs ending with the lateralized presentation of three target types: (1) expected pictures, (2) unexpected pictures from the expected semantic category, and (3) unexpected pictures from an unexpected category. ERPs to contextually unexpected pictures were more negative 350-500 ms (larger N400s) than those to expected pictures in both visual fields. However, while N400s to the two types of unexpected items did not differ with left visual field presentations, they were smaller to the unexpected items from the expected category with right visual field presentations. This pattern, previously observed to words [Brain Language 62 (1998) 149], suggests general differences in how the two hemispheres use context on-line. Other aspects of the N400 response-and effects on earlier ERP components-reveal differences between pictures and words, suggesting that semantic memory access is not modality-independent. The P2 component varied with ending type for right but not left visual field presentations, suggesting that the left hemisphere may use contextual information to prepare for the visual analysis of upcoming stimuli. Furthermore, there was clear evidence for an earlier negativity ("N300"), which varied with ending type but, unlike the N400, was unaffected by visual field of presentation. Overall, the results support our hypothesis that the left hemisphere actively uses top-down information to preactivate perceptual and semantic features of upcoming stimuli, while the right hemisphere adopts a "wait and see" integrative approach.

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“…A hemispheric specialization for different types of visual attributes has been proposed by Kossslyn et al (1989), Hellige & Michimata (1989) and Rybash & Hoyer (1992) (see Jager & Postma, 2003, for a review). Accordingly, the right hemisphere possesses greater competence for the evaluation of metric coordinate representations, whereas the left hemisphere shows an advantage for the processing of categorical spatial relations.…”

Section: Discussionmentioning

confidence: 99%

Differential impact of posterior lesions in the left and right hemisphere on visual category learning and generalization to contrast reversal

et al. 2009

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Categorization versus distance: Hemispheric differences for processing spatial information

Cited by 191 publications

References 19 publications

Processing of above/below categorical spatial relations by baboons (Papio papio)

Processing of above/below categorical spatial relations by baboons (Papio papio)

Picture the difference: electrophysiological investigations of picture processing in the two cerebral hemispheres

Differential impact of posterior lesions in the left and right hemisphere on visual category learning and generalization to contrast reversal

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