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Face masks and fake masks: the effect of real and superimposed masks on face matching with super-recognisers, typical observers, and algorithms.

Face masks and fake masks: the effect of real and superimposed masks on face matching with super-recognisers, typical observers, and algorithms.
Face masks and fake masks: the effect of real and superimposed masks on face matching with super-recognisers, typical observers, and algorithms.
Mask wearing has been required in various settings since the outbreak of COVID-19, and research has shown that identity judgements are difficult for faces wearing masks. To date, however, the majority of experiments on face identification with masked faces tested humans and computer algorithms using images with superimposed masks rather than images of people wearing real face coverings. In three experiments we test humans (control participants and super-recognisers) and algorithms with images showing different types of face coverings. In all experiments we tested matching concealed or unconcealed faces to an unconcealed reference image, and we found a consistent decrease in face matching accuracy with masked compared to unconcealed faces. In Experiment 1, typical human observers were most accurate at face matching with unconcealed images, and poorer for three different types of superimposed mask conditions. In Experiment 2, we tested both typical observers and super-recognisers with superimposed and real face masks, and found that performance was poorer for real compared to superimposed masks. The same pattern was observed in Experiment 3 with algorithms. Our results highlight the importance of testing both humans and algorithms with real face masks, as using only superimposed masks may underestimate their detrimental effect on face identification.
Ritchie, Kay L.
Carragher, Daniel J.
Davis, Josh P.
Read, Katie
b0c45694-a58b-45de-9f31-36797729564b
Jenkins, Ryan E.
Noyes, Eilidh
Gray, Katie L.H.
Hancock, Peter J.B.
Ritchie, Kay L.
Carragher, Daniel J.
Davis, Josh P.
Read, Katie
b0c45694-a58b-45de-9f31-36797729564b
Jenkins, Ryan E.
Noyes, Eilidh
Gray, Katie L.H.
Hancock, Peter J.B.

Ritchie, Kay L., Carragher, Daniel J., Davis, Josh P., Read, Katie, Jenkins, Ryan E., Noyes, Eilidh, Gray, Katie L.H. and Hancock, Peter J.B. (2024) Face masks and fake masks: the effect of real and superimposed masks on face matching with super-recognisers, typical observers, and algorithms. Cognitive Research: Principles and Implications, 9 (5), [5]. (doi:10.1186/s41235-024-00532-2).

Record type: Article

Abstract

Mask wearing has been required in various settings since the outbreak of COVID-19, and research has shown that identity judgements are difficult for faces wearing masks. To date, however, the majority of experiments on face identification with masked faces tested humans and computer algorithms using images with superimposed masks rather than images of people wearing real face coverings. In three experiments we test humans (control participants and super-recognisers) and algorithms with images showing different types of face coverings. In all experiments we tested matching concealed or unconcealed faces to an unconcealed reference image, and we found a consistent decrease in face matching accuracy with masked compared to unconcealed faces. In Experiment 1, typical human observers were most accurate at face matching with unconcealed images, and poorer for three different types of superimposed mask conditions. In Experiment 2, we tested both typical observers and super-recognisers with superimposed and real face masks, and found that performance was poorer for real compared to superimposed masks. The same pattern was observed in Experiment 3 with algorithms. Our results highlight the importance of testing both humans and algorithms with real face masks, as using only superimposed masks may underestimate their detrimental effect on face identification.

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s41235-024-00532-2 - Version of Record
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Accepted/In Press date: 18 January 2024
e-pub ahead of print date: 2 February 2024
Published date: 2 February 2024

Identifiers

Local EPrints ID: 507704
URI: http://eprints.soton.ac.uk/id/eprint/507704
DOI: doi:10.1186/s41235-024-00532-2
PURE UUID: dba9355c-d3b5-4b44-8413-abac0ce888bc
ORCID for Katie Read: ORCID iD orcid.org/0009-0003-0029-1725

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Date deposited: 19 Dec 2025 17:33
Last modified: 20 Dec 2025 03:41

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Contributors

Author: Kay L. Ritchie
Author: Daniel J. Carragher
Author: Josh P. Davis
Author: Katie Read ORCID iD
Author: Ryan E. Jenkins
Author: Eilidh Noyes
Author: Katie L.H. Gray
Author: Peter J.B. Hancock

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