Symmetrical Viewpoint Representations in Face-Selective Regions Convey an Advantage in the Perception and Recognition of Faces

Flack, Tessa R.; Harris, Russell A.; Young, Andrew W.; Andrews, Timothy J.

doi:10.1523/jneurosci.1977-18.2019

Cited by 9 publications

(4 citation statements)

References 54 publications

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“…a difference in background colour or a photographic artefact). This would then yield low cost representations with low generalisability and to poor performance in a subsequent memory test that uses images where the appearance, the view or pictorial artefacts have changed and/or where distractors display gross resemblances with learned faces (for a recent example with viewpoint, see Flack et al, 2019). The same reasoning can also help explain poor performance with new faces briefly encountered in the real world, for example, when one is witnessing a crime.…”

Section: Discussionmentioning

confidence: 99%

The impact of stability in appearance on the development of facial representations

Devue¹,

Sena²,

Wright³

2021

Preprint

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The way faces become familiar and what information is represented as familiarity develops has puzzled researchers in the field of human face recognition for decades. In this paper, we propose a cost-efficient mechanism of face learning to describe how facial representations form over time and that explains why recognition errors occur. Encoding of diagnostic facial information would follow a coarse-to-fine trajectory, modulated by the intrinsic stability in individual faces’ appearance. In four experiments, we draw on a robust and ecological method using a proxy of exposure to famous faces in the real world to test hypotheses generated by the model and we manipulate test images to probe the nature of facial representations. We consistently show that stable facial appearances help create more reliable representation in early stages of familiarisation but that their resolution remains relatively low and therefore less discriminative over time. In contrast, variations in appearance hinder recognition at first but encourage refinement of representations with further exposure. Consistent with the cost-efficient face learning mechanism we propose, facial representations built on a foundation of large-scale coarse information. When coarse information loses its diagnostic value through the experience of variations across encounters, facial details and their spatial relationships receive additional representational weights.

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Section: Discussionmentioning

confidence: 99%

The impact of stability in appearance on the development of facial representations

Devue¹,

Sena²,

Wright³

2021

Preprint

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“…Images provided as input to the model were obtained from two popular databases: Karolinska Directed Emotional Faces (KDEF) (Lundqvist et al, 1998) and Radboud Faces Database (RaFD) (Langner et al, 2010). These databases have been used by previous studies investigating viewpoint-invariant face recognition, and RaFD specifically used in studies combining fMRI and MVPA (Weibert et al, 2018; Flack et al, 2019). Both databases include multiple individuals photographed in the same five viewpoints: −90° (left-profile view), −45°, 0°, 45°, and 90° (right-profile view).…”

Section: Methodsmentioning

confidence: 99%

A unifying model for discordant and concordant results in human neuroimaging studies of facial viewpoint selectivity

Revsine

Gonzalez-Castillo

Merriam

et al. 2023

Preprint

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Our ability to recognize faces regardless of viewpoint is a key property of the primate visual system. Traditional theories hold that facial viewpoint is represented by view-selective mechanisms at early visual processing stages and that representations become increasingly tolerant to viewpoint changes in higher-level visual areas. Newer theories, based on single-neuron monkey electrophysiological recordings, suggest an additional intermediate processing stage invariant to mirror-symmetric face views. Consistent with traditional theories, human studies combining neuroimaging and multivariate pattern analysis (MVPA) methods have provided evidence of view-selectivity in early visual cortex. However, contradictory results have been reported in higher-level visual areas concerning the existence in humans of mirror-symmetrically tuned representations. We believe these results reflect low-level stimulus confounds and data analysis choices. To probe for low-level confounds, we analyzed images from two popular face databases. Analyses of mean image luminance and contrast revealed biases across face views described by even polynomials—i.e., mirror-symmetric. To explain major trends across human neuroimaging studies of viewpoint selectivity, we constructed a network model that incorporates three biological constraints: cortical magnification, convergent feedforward projections, and interhemispheric connections. Given the identified low-level biases, we show that a gradual increase of interhemispheric connections across network layers is sufficient to replicate findings of mirror-symmetry in high-level processing stages, as well as view-tuning in early processing stages. Data analysis decisions—pattern dissimilarity measure and data recentering—accounted for the variable observation of mirror-symmetry in late processing stages. The model provides a unifying explanation of MVPA studies of viewpoint selectivity. We also show how common analysis choices can lead to erroneous conclusions.

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“…Haxby et al's model offers a synthesis of results from studies of neural responses using fMRI and older functional models based on behavioural and neuropsychological evidence (Bruce & Young, 1986). Most of this fMRI work used the subtractive method to identify faceresponsive brain regions (Kanwisher, 2017), but later fMRI research using adaptation to properties of face stimuli, or multi-voxel analysis of the patterns of activation, has continued to emphasise the importance of the same regions (Andrews & Ewbank, 2004;Flack et al, 2019;Kovacs, 2020), as have direct measurements from intracerebral recordings (Jonas et al, 2016). What remains less clear is exactly what each of these regions contributes to the processes involved in perceiving faces (Freiwald et al, 2016;Kovacs, 2020;Yovel, 2016).…”

Section: Theoretical Approachesmentioning

confidence: 99%

Face Perception

Young¹

2021

Oxford Research Encyclopedia of Psychology

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Faces carry a wide variety of socially important information, including invariant personal properties that can be used to recognize someone’s identity and highly changeable characteristics that assist in interpreting their feelings and intentions. These relatively invariant and more changeable aspects of face perception present differing everyday demands that, together with genetic and cultural influences, help determine the organization of processes involved in human face perception.

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Symmetrical Viewpoint Representations in Face-Selective Regions Convey an Advantage in the Perception and Recognition of Faces

Cited by 9 publications

References 54 publications

The impact of stability in appearance on the development of facial representations

The impact of stability in appearance on the development of facial representations

A unifying model for discordant and concordant results in human neuroimaging studies of facial viewpoint selectivity

Face Perception

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