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How human–robot interaction can influence task performance and perceived cognitive load at different support conditions

How human–robot interaction can influence task performance and perceived cognitive load at different support conditions
How human–robot interaction can influence task performance and perceived cognitive load at different support conditions

Cognitive load refers to the mental resources used for executing simultaneous tasks. Since these resources are limited, individuals can only process a specific amount of information at a time. Daily activities often involve mentally demanding tasks, which is why social robots have been proposed to simplify them and support users. This study aimed to verify whether and how a social robot can enhance the performance and support the management of cognitive load. Participants completed a baseline where a cognitive activity was carried out without support, and three other conditions where similar activities of increasing difficulty were collaboratively made with the NAO robot. In each condition, errors, time, and perceived cognitive load were measured. Results revealed that the robot improved performance and perceived cognitive load when compared to the baseline, but this support was then thwarted by excessive levels of cognitive load. Future research should focus on developing and designing collaborative human–robot interactions that consider the user’s mental demand, to promote effective and personalized robotic help for independent living.

cognitive load, daily autonomy, multimodal interactions, socially assistive robotics
2078-2489
Varrasi, Simone
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Vagnetti, Roberto
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Camp, Nicola
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Hough, John
a84fa08b-e63c-47a6-aab3-ee485f019527
Nuovo, Alessandro Di
09c7ba20-f9a1-484f-ab3a-337d83737c46
Castellano, Sabrina
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Magistro, Daniele
ab9296bc-fda6-469e-a3f8-3a574faa1b7e
Varrasi, Simone
8eb337de-5f59-4edd-8665-64aa16ceeca1
Vagnetti, Roberto
769db927-be78-4c31-84c5-5ed4379c6fea
Camp, Nicola
9dcf59fe-47c4-43db-bb6a-333721427eb9
Hough, John
a84fa08b-e63c-47a6-aab3-ee485f019527
Nuovo, Alessandro Di
09c7ba20-f9a1-484f-ab3a-337d83737c46
Castellano, Sabrina
2c69f56b-e587-4a27-9d6e-9d07163e2a99
Magistro, Daniele
ab9296bc-fda6-469e-a3f8-3a574faa1b7e

Varrasi, Simone, Vagnetti, Roberto, Camp, Nicola, Hough, John, Nuovo, Alessandro Di, Castellano, Sabrina and Magistro, Daniele (2025) How human–robot interaction can influence task performance and perceived cognitive load at different support conditions. Information, 16 (5), [374]. (doi:10.3390/info16050374).

Record type: Article

Abstract

Cognitive load refers to the mental resources used for executing simultaneous tasks. Since these resources are limited, individuals can only process a specific amount of information at a time. Daily activities often involve mentally demanding tasks, which is why social robots have been proposed to simplify them and support users. This study aimed to verify whether and how a social robot can enhance the performance and support the management of cognitive load. Participants completed a baseline where a cognitive activity was carried out without support, and three other conditions where similar activities of increasing difficulty were collaboratively made with the NAO robot. In each condition, errors, time, and perceived cognitive load were measured. Results revealed that the robot improved performance and perceived cognitive load when compared to the baseline, but this support was then thwarted by excessive levels of cognitive load. Future research should focus on developing and designing collaborative human–robot interactions that consider the user’s mental demand, to promote effective and personalized robotic help for independent living.

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information-16-00374 - Version of Record
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Accepted/In Press date: 28 April 2025
Published date: 30 April 2025
Keywords: cognitive load, daily autonomy, multimodal interactions, socially assistive robotics

Identifiers

Local EPrints ID: 506006
URI: http://eprints.soton.ac.uk/id/eprint/506006
DOI: doi:10.3390/info16050374
ISSN: 2078-2489
PURE UUID: f4ff0334-0ed3-4206-8176-1d9e23bcab5b
ORCID for Daniele Magistro: ORCID iD orcid.org/0000-0002-2554-3701

Catalogue record

Date deposited: 27 Oct 2025 17:52
Last modified: 28 Oct 2025 03:10

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Contributors

Author: Simone Varrasi
Author: Roberto Vagnetti
Author: Nicola Camp
Author: John Hough
Author: Alessandro Di Nuovo
Author: Sabrina Castellano
Author: Daniele Magistro ORCID iD

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