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运动和颜色在分组后识别阶段产生共同激活。

Motion and color generate coactivation at postgrouping identification stages.

作者信息

Poom Leo

机构信息

Department of Psychology, Uppsala University, Uppsala, Sweden.

出版信息

Atten Percept Psychophys. 2011 Aug;73(6):1833-42. doi: 10.3758/s13414-011-0132-8.

Abstract

Response times (RTs) were measured in a postgrouping visual identification task. Shapes composed of multiple elements were distinguished by color, motion, orientation, and spatial frequency alone or in pairwise conjunctions. The largest amount of redundancy gain, requiring coactivation as revealed by a race model analysis, was obtained with color-motion conjunctions. In contrast, RTs for a pregrouping detection task using the same target shape as in the identification task, distinguished by color, motion, or a conjunction of these features, showed no evidence for coactivation. The results provide psychophysical evidence for coactivation of color and motion signals in cortical regions specialized for grouping and object identification, as opposed to separate processing of these features in cortical area V1, believed to limit performance in visual search and pregrouping detection.

摘要

在分组后的视觉识别任务中测量了反应时间(RTs)。由多个元素组成的形状仅通过颜色、运动、方向和空间频率或成对组合来区分。通过竞争模型分析发现,颜色 - 运动组合获得了最大量的冗余增益,这需要共同激活。相比之下,在预分组检测任务中,使用与识别任务中相同的目标形状,通过颜色、运动或这些特征的组合来区分,结果并未显示出共同激活的证据。这些结果提供了心理物理学证据,表明在专门用于分组和物体识别的皮质区域中,颜色和运动信号会共同激活,这与在皮质区域V1中对这些特征进行单独处理形成对比,后者被认为会限制视觉搜索和预分组检测的表现。

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