Abstract
Visual search and attentional alignment in 3D space are potentially modulated by information in unattended depth planes. The number of relevant and irrelevant items as well as their spatial relations may be regarded as factors which contribute to such effects. On a behavioral level, it might be different whether multiple distractors are presented in front of or behind target items. However, several studies revealed that attention cannot be restricted to a single depth plane. To further investigate this issue, two experiments were conducted. In the first experiment, participants searched for (multiple) targets in one depth plane, while non-target items (distractors) were simultaneously presented in this or another depth plane. In the second experiment, an additional spatial cue was presented with different validities to highlight the target position. Search durations were generally shorter when the search array contained two additional targets and were markedly longer when three distractors were displayed. The latter effect was most pronounced when a single target and three distractors coincided in the same depth plane and this effect persisted even when the target position was validly cued. The study reveals that the depth relation of target and distractor stimuli was more important than the absolute distance between these objects. Furthermore, the present findings suggest that within an attended depth plane, irrelevant information elicits strong interference. In sum, this study provides further evidence that allocation of attention is a flexible process which may be modulated by a variety of perceptual and cognitive factors.
Highlights
Interacting with the real world requires continuous extraction of visual information from a three-dimensional (3D) environment
Participants performed a visual search task to investigate whether the number of critical items in the search array modulates visual selection in a 3D environment
The resulting values were submitted to a 2 × 2 × 2 × 2 repeated-measures analyses of variances (ANOVA) with the factors number of targets (1/3), number of distractors (1/3), target depth plane, and target–distractor relation
Summary
Interacting with the real world requires continuous extraction of visual information from a three-dimensional (3D) environment. Unlike in the previous studies, targets and distractors in this study were defined by (stereoscopic) depth and as such were clearly discernable (i.e., closer or farther) from neutral items in a central depth plane Using this spatial adaptation of the additional singleton paradigm (Theeuwes, 1991, 1992), target identification in smaller and larger search arrays (i.e., set size: 6 or 9 items) needed roughly the same time, which suggests that (salient) depth information was used to adopt a parallel search mode. Crowding effects were attenuated when depth separation was small compared to conditions with large separation or without separation (i.e., target and fixation in the same depth plane) Another depth-related issue that has not been investigated so far is whether the number of target and distractor stimuli (defined by stereoscopic depth information) as well as their spatial relation modulate visual selection. Models of an egocentric spatial gradient suggest that the latter effect may be stronger pronounced in closer depth planes
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