Three-dimensional features facilitate object recognition

Abstract

A priming paradigm was used to investigate the contribution of local features and global shape information in object recognition. Five types of incomplete forms were used as primes: (1) forms with both maxima (local curvature) and midsegments of edges present and aligned on the outline contour; (2) forms similar in global shape to the first version of stimuli, but with misaligned elements; (3) forms with only maxima; (4) forms with only midsegments of edges; and (5) forms containing 3D comer junctions (in Experiments 3 and 4). The target was an outline drawing of an object from which the incomplete prime was derived. Subjects were asked to name the target as rapidly as possible. Primes were presented at levels of contrast corresponding to identification thresholds, as well as above and below threshold levels (determined in Experiments 1 and 3). Facilitation effects relative to a neutral (no prime) condition occurred at threshold and above threshold for primes with aligned elements, forms with only maxima, and forms with only midsegments. Priming occurred only above threshold for forms with non-aligned elements. In Experiment 4 the presence of 3D local features increased the magnitude of priming relative to forms with midsegments and to forms with flat corners (in Experiment 2). This result suggests that 3D features facilitate object identification either because objects are stored in the form of volumetric entities or because 3D features are extracted early in visual processing.