Expert Performance by Athletes in the Verbal Estimation of Spatial Extents Does Not Alter Their Perceptual Metric of Space
Athletes often give more accurate estimates of egocentric distance along the ground than do non-athletes. To explore whether cognitive calibration was accompanied by perceptual change, athletes and non-athletes made verbal height and distance estimates and also did a perceptual matching task between...
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| Format: | Article |
| Language: | English |
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SAGE Publishing
2012-06-01
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| Series: | i-Perception |
| Online Access: | https://doi.org/10.1068/i0498 |
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doaj-598f3391f9b5403fb4775475d55219642020-11-25T03:24:41ZengSAGE Publishingi-Perception2041-66952012-06-01310.1068/i049810.1068_i0498Expert Performance by Athletes in the Verbal Estimation of Spatial Extents Does Not Alter Their Perceptual Metric of SpaceFrank H DurginKeenan Leonard-SolisOwen MastersBrittany SchmelzZhi LiAthletes often give more accurate estimates of egocentric distance along the ground than do non-athletes. To explore whether cognitive calibration was accompanied by perceptual change, athletes and non-athletes made verbal height and distance estimates and also did a perceptual matching task between perceived egocentric distances and frontal vertical extents. Both groups were well calibrated for height estimation for poles viewed frontally, but athletes were much better calibrated at estimating longer egocentric distances (which are systematically underestimated by non-athletes). Athletes were more likely to have learned specific units of ground distance from relevant sports contexts. Both groups reported using human height as a metric for vertical extent. For non-athletes, verbal underestimation of ground distance corresponded to predictions based on perceptual matches between egocentric distances and vertical extents in conjunction with human-height-based verbal estimates of vertical extents. For athletes, the verbal scaling of egocentric distances of 10 m or more was more accurate and was not predicted by their egocentric distance matches to vertical extents.https://doi.org/10.1068/i0498 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Frank H Durgin Keenan Leonard-Solis Owen Masters Brittany Schmelz Zhi Li |
| spellingShingle |
Frank H Durgin Keenan Leonard-Solis Owen Masters Brittany Schmelz Zhi Li Expert Performance by Athletes in the Verbal Estimation of Spatial Extents Does Not Alter Their Perceptual Metric of Space i-Perception |
| author_facet |
Frank H Durgin Keenan Leonard-Solis Owen Masters Brittany Schmelz Zhi Li |
| author_sort |
Frank H Durgin |
| title |
Expert Performance by Athletes in the Verbal Estimation of Spatial Extents Does Not Alter Their Perceptual Metric of Space |
| title_short |
Expert Performance by Athletes in the Verbal Estimation of Spatial Extents Does Not Alter Their Perceptual Metric of Space |
| title_full |
Expert Performance by Athletes in the Verbal Estimation of Spatial Extents Does Not Alter Their Perceptual Metric of Space |
| title_fullStr |
Expert Performance by Athletes in the Verbal Estimation of Spatial Extents Does Not Alter Their Perceptual Metric of Space |
| title_full_unstemmed |
Expert Performance by Athletes in the Verbal Estimation of Spatial Extents Does Not Alter Their Perceptual Metric of Space |
| title_sort |
expert performance by athletes in the verbal estimation of spatial extents does not alter their perceptual metric of space |
| publisher |
SAGE Publishing |
| series |
i-Perception |
| issn |
2041-6695 |
| publishDate |
2012-06-01 |
| description |
Athletes often give more accurate estimates of egocentric distance along the ground than do non-athletes. To explore whether cognitive calibration was accompanied by perceptual change, athletes and non-athletes made verbal height and distance estimates and also did a perceptual matching task between perceived egocentric distances and frontal vertical extents. Both groups were well calibrated for height estimation for poles viewed frontally, but athletes were much better calibrated at estimating longer egocentric distances (which are systematically underestimated by non-athletes). Athletes were more likely to have learned specific units of ground distance from relevant sports contexts. Both groups reported using human height as a metric for vertical extent. For non-athletes, verbal underestimation of ground distance corresponded to predictions based on perceptual matches between egocentric distances and vertical extents in conjunction with human-height-based verbal estimates of vertical extents. For athletes, the verbal scaling of egocentric distances of 10 m or more was more accurate and was not predicted by their egocentric distance matches to vertical extents. |
| url |
https://doi.org/10.1068/i0498 |
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AT frankhdurgin expertperformancebyathletesintheverbalestimationofspatialextentsdoesnotaltertheirperceptualmetricofspace AT keenanleonardsolis expertperformancebyathletesintheverbalestimationofspatialextentsdoesnotaltertheirperceptualmetricofspace AT owenmasters expertperformancebyathletesintheverbalestimationofspatialextentsdoesnotaltertheirperceptualmetricofspace AT brittanyschmelz expertperformancebyathletesintheverbalestimationofspatialextentsdoesnotaltertheirperceptualmetricofspace AT zhili expertperformancebyathletesintheverbalestimationofspatialextentsdoesnotaltertheirperceptualmetricofspace |
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