Abstract
Multiple object tracking (MOT) is an attentional process wherein people track several moving targets among several distractors. Symmetry, an important indicator of regularity, is a general spatial pattern observed in natural and artificial scenes. According to the “laws of perceptual organization” proposed by Gestalt psychologists, regularity is a principle of perceptual grouping, such as similarity and closure. A great deal of research reported that feature-based similarity grouping (e.g., grouping based on color, size, or shape) among targets in MOT tasks can improve tracking performance. However, no additive feature-based grouping effects have been reported where the tracking objects had two or more features. “Additive effect” refers to a greater grouping effect produced by grouping based on multiple cues instead of one cue. Can spatial symmetry produce a similar grouping effect similar to that of feature similarity in MOT tasks? Are the grouping effects based on symmetry and feature similarity additive? This study includes four experiments to address these questions. The results of Experiments 1 and 2 demonstrated the automatic symmetry-based grouping effects. More importantly, an additive grouping effect of symmetry and feature similarity was observed in Experiments 3 and 4. Our findings indicate that symmetry can produce an enhanced grouping effect in MOT and facilitate the grouping effect based on color or shape similarity. The “where” and “what” pathways might have played an important role in the additive grouping effect.
Highlights
Multiple object tracking (MOT) is a tracking process involving the consumption of continuous attentional resources
In Symmetry and Asymmetry conditions, tracking accuracy all declined significantly as the number of targets increased, which was consistent with MOT tasks
These results showed that the trajectory of symmetric MOT (SMOT) was similar as that of typical MOT, and the newly designed SMOT can be used to study object tracking
Summary
Multiple object tracking (MOT) is a tracking process involving the consumption of continuous attentional resources. In a typical MOT task, a number of identical objects are shown within a display. A subset is designated as “targets” through their flashing; thereafter, all objects move randomly around the display for several seconds. The task of the observer is to keep track of the target subset. In a dynamic display, such as MOT, access must be maintained by the continued existence of objects, which is referred to as “objecthood” (Scholl and Pylyshyn, 1999; Blaser et al, 2000; Scholl, 2001; Scholl et al, 2001). According to Pylyshyn and Storm (1988), the maximum number of targets that can be tracked is five.
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