Attention facilitates three-dimensional shape from shading

Research output: Contribution to conferencePosterpeer-review

Standard Standard

Attention facilitates three-dimensional shape from shading. / Matthews, Joshua; Mills, Debbie; Sapir, Ayelet.
2024. Poster session presented at European Conference on Visual Perception, 2024, Aberdeen, United Kingdom.

Research output: Contribution to conferencePosterpeer-review

HarvardHarvard

Matthews, J, Mills, D & Sapir, A 2024, 'Attention facilitates three-dimensional shape from shading', European Conference on Visual Perception, 2024, Aberdeen, United Kingdom, 25/08/24 - 29/08/24.

APA

Matthews, J., Mills, D., & Sapir, A. (2024). Attention facilitates three-dimensional shape from shading. Poster session presented at European Conference on Visual Perception, 2024, Aberdeen, United Kingdom.

CBE

Matthews J, Mills D, Sapir A. 2024. Attention facilitates three-dimensional shape from shading. Poster session presented at European Conference on Visual Perception, 2024, Aberdeen, United Kingdom.

MLA

Matthews, Joshua, Debbie Mills, and Ayelet Sapir Attention facilitates three-dimensional shape from shading. European Conference on Visual Perception, 2024, 25 Aug 2024, Aberdeen, United Kingdom, Poster, 2024.

VancouverVancouver

Matthews J, Mills D, Sapir A. Attention facilitates three-dimensional shape from shading. 2024. Poster session presented at European Conference on Visual Perception, 2024, Aberdeen, United Kingdom.

Author

Matthews, Joshua ; Mills, Debbie ; Sapir, Ayelet. / Attention facilitates three-dimensional shape from shading. Poster session presented at European Conference on Visual Perception, 2024, Aberdeen, United Kingdom.

RIS

TY - CONF

T1 - Attention facilitates three-dimensional shape from shading

AU - Matthews, Joshua

AU - Mills, Debbie

AU - Sapir, Ayelet

PY - 2024/8/25

Y1 - 2024/8/25

N2 - The visual system utilises several monocular cues to perceive the three-dimensional environment. One critical cue is shading, whereby the three-dimensional shape of an object can be inferred by shading patterns in a process termed “shape from shading”. Shape from shading has been considered an early and pre-attentive process, however recent evidence has suggested that there exists a later stage of processing for shape from shading that requires top-down attention. Here, we investigated this proposal using event-related potentials to record brain activity with great temporal resolution, whilst participants passively and actively viewed two-dimensional or three-dimensional shaded stimuli. We found an early stage of shape from shading around 150-200 milliseconds post stimulus onset that occurred during passive viewing, demonstrating processing for shape from shading without guided attention to the stimuli. Further, we found evidence for a right hemispheric lateralization of this early processing only during active viewing, suggesting that guided attention facilitated right hemispheric processing for shape from shading. Additionally, we found a later stage of processing for shape from shading around 290-350 milliseconds post stimulus onset that occurred only when attention was guided to the stimuli. Therefore, this indicates that guided attention is necessary for later-stage processing related to shape from shading. Finally, differences in processing between convex and concave three-dimensional shape were observed at both early and later stages of processing, highlighting differences in the processing of specific three-dimensional shapes. This research presents evidence for two separate processes involved in three-dimensional shape from shading. Moreover, it suggests that guided attention facilitates early processing for shape from shading but is necessary for later-stage processing related to three-dimensional perception.

AB - The visual system utilises several monocular cues to perceive the three-dimensional environment. One critical cue is shading, whereby the three-dimensional shape of an object can be inferred by shading patterns in a process termed “shape from shading”. Shape from shading has been considered an early and pre-attentive process, however recent evidence has suggested that there exists a later stage of processing for shape from shading that requires top-down attention. Here, we investigated this proposal using event-related potentials to record brain activity with great temporal resolution, whilst participants passively and actively viewed two-dimensional or three-dimensional shaded stimuli. We found an early stage of shape from shading around 150-200 milliseconds post stimulus onset that occurred during passive viewing, demonstrating processing for shape from shading without guided attention to the stimuli. Further, we found evidence for a right hemispheric lateralization of this early processing only during active viewing, suggesting that guided attention facilitated right hemispheric processing for shape from shading. Additionally, we found a later stage of processing for shape from shading around 290-350 milliseconds post stimulus onset that occurred only when attention was guided to the stimuli. Therefore, this indicates that guided attention is necessary for later-stage processing related to shape from shading. Finally, differences in processing between convex and concave three-dimensional shape were observed at both early and later stages of processing, highlighting differences in the processing of specific three-dimensional shapes. This research presents evidence for two separate processes involved in three-dimensional shape from shading. Moreover, it suggests that guided attention facilitates early processing for shape from shading but is necessary for later-stage processing related to three-dimensional perception.

M3 - Poster

T2 - European Conference on Visual Perception, 2024

Y2 - 25 August 2024 through 29 August 2024

ER -