Semantic Expectation Effects on Object Detection: Using Figure Assignment to Elucidate Mechanisms

Skocypec, Rachel; Peterson, Mary A.

doi:10.3390/vision6010019

Cited by 4 publications

(27 citation statements)

References 80 publications

(121 reference statements)

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“…However, the results of the current study emphasize the integrative nature of object and scene understanding. The results provide support for the role of context in object perception (e.g., Cacciamani et al, 2014; Flowers et al, 2020; Quek & Peelen, n.d.; Skocypec & Peterson, 2022) and that scene processing inherently includes the processing of the associations embedded within it (Aminoff, 2014; Aminoff & Tarr, 2015, 2020).…”

Section: Discussionmentioning

confidence: 99%

Scene-selective brain regions respond to embedded objects of a scene

Aminoff

Durham

2022

Preprint

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Objects are fundamental to scene understanding. Scenes are defined by embedded objects and how we interact with them. Paradoxically, scene processing in the brain is typically discussed in contrast to object processing. Using the BOLD5000 dataset (Chang et al., 2019), we examined whether objects within a scene predicted the neural representation of scenes, as measured by fMRI in humans. Stimuli included 1,179 unique scenes across 18 semantic categories. Object composition of scenes were compared across scene exemplars in different semantic categories, and separately, in exemplars of the same category. Neural representations in scene- and object- preferring brain regions were significantly related to which objects were in a scene, with the effect at times stronger in the scene-preferring regions. The object model accounted for more variance when comparing scenes within the same semantic category to scenes from different categories. Thus, the functional role of scene-preferring regions should include the processing of objects. This suggests visual processing regions may be better characterized with respect to which processes are engaged when interacting with the stimulus category, such as processing groups of objects in scenes, or processing a single object in our foreground, rather than the stimulus category itself.

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Section: Discussionmentioning

confidence: 99%

Scene-selective brain regions respond to embedded objects of a scene

Aminoff

Durham

2022

Preprint

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“…In the present article, we use computational modeling to reveal the mechanisms whereby semantics influenced object detection in a recent experiment by Skocypec and Peterson (2022). We begin by discussing the “Label-Feedback” hypothesis, a leading hypothesis regarding how semantics might influence object detection that was supported by previous experiments in which stimuli were repeated multiple times.…”

Section: Introductionmentioning

confidence: 99%

“…In studies that provided support for the Label-Feedback hypothesis, a basic-level label (i.e., a label commonly paired with an object) was paired with a particular exemplar many times (e.g., Lupyan & Ward, 2013; Pinto et al, 2015; Stein & Peelen, 2015). However, with so much repetition, participants may have learned to respond accurately following a basic-level label when they detected low-level features rather than the object configuration which entails representations of the relationship among features (Gayet et al, 2014; Skocypec & Peterson, 2022). Thus, the use of repetition may produce a misunderstanding of how basic- level labels typically affect object detection.…”

Section: Introductionmentioning

confidence: 99%

“…Skocypec and Peterson (2022) assessed object detection via figure assignment reports regarding stimuli like those in Figure 1. In these stimuli, a portion of a well-known (i.e., “familiar”) object with a typical upright is depicted on one side of a central border that divides the display into two equal-area halves.…”

Section: Introductionmentioning

confidence: 99%

“…In their experiments, Skocypec and Peterson (2022) investigated the effect of word labels on object detection in these bipartite displays. Participants in experimental labels-present groups were presented with either a valid or an invalid label before being shown a brief, masked, exposure of a bipartite display depicting a portion of a familiar object in either an upright or an inverted orientation.…”

Section: Introductionmentioning

confidence: 99%

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Semantic Influences on Object Detection: Drift Diffusion Modeling Provides Insights Regarding Mechanism

Xue,

Wilson,

Peterson

2024

Preprint

Self Cite

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Research shows that semantics, activated by words, impacts object detection. Skocypec & Peterson (2022) indexed object detection via correct reports of where figures lie in bipartite displays depicting familiar objects on one side of a border. They reported 2 studies with intermixed Valid and Invalid labels shown before test displays and a third, control, study. Valid labels denoted display objects. Invalid labels denoted unrelated objects in a different or the same superordinate-level category in studies 1 & 2, respectively. We used drift diffusion modeling (DDM) to elucidate the mechanisms of their results. DDM revealed that, following Valid labels, drift rate toward the correct decision increased, i.e., SNR increased. Following Invalid labels, SNR was lower only for upright displays in study 2. Thresholds were higher in studies 1 & 2 than in control. That more evidence must be accumulated from displays that follow labels implies that familiar object detection entails semantic activation. Threshold was even higher following Invalid labels in study 2, suggesting that more evidence from the display is needed to resolve within- category conflicts. These results support the view that semantic networks are engaged in object detection.

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Carving joints into nature: reengineering scientific concepts in light of concept-laden evidence

Dubova

Goldstone

2023

Trends in Cognitive Sciences

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Semantic Expectation Effects on Object Detection: Using Figure Assignment to Elucidate Mechanisms

Cited by 4 publications

References 80 publications

Scene-selective brain regions respond to embedded objects of a scene

Scene-selective brain regions respond to embedded objects of a scene

Semantic Influences on Object Detection: Drift Diffusion Modeling Provides Insights Regarding Mechanism

Carving joints into nature: reengineering scientific concepts in light of concept-laden evidence

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