Real-time mental workload assessment with low intrusiveness for assembly processes: Limits and preliminary results

Riccardo Gervasi; Matteo De Marchi; Luca Mastrogiacomo; Dominik Matt; F Francheschini

doi:10.21741/9781644903735-6

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Real-time mental workload assessment with low intrusiveness for assembly processes: Limits and preliminary results

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Real-time mental workload assessment with low intrusiveness for assembly processes: Limits and preliminary results

Riccardo Gervasi, Matteo De Marchi, Luca Mastrogiacomo, Dominik Matt and F Francheschini

Italian Manufacturing Association Conference: XVII AITeM, Vol.57, pp.47-55

Materials Research Proceedings, 57

17th Italian Manufacturing Association Conference, AITeM 2025 (Bari, 10/09/2025–12/09/2025)

2025

DOI: https://doi.org/10.21741/9781644903735-6

Handle:

https://hdl.handle.net/10863/49728

Abstract

Human aspects

Monitoring

Quality Engineering

The real-time assessment of mental workload emerges as crucial in Industry 5.0 for optimizing human performance and wellbeing when interacting with complex systems. However, balancing diagnosticity and sensitivity with low intrusiveness in such assessments remains challenging. According to ISO 10075, mental workload is a broad concept encompassing several observable phenomena (e.g., monotony and mental fatigue), each requiring special attention. This paper explores current techniques for real-time assessment of mental workload in manufacturing and presents preliminary results from a case study in an assembly line. The case study integrates physiological metrics (i.e., heart rate variability, electrodermal activity, and eye-tracking) collected by non-invasive biosensors with task performance metrics to highlight benefits and limitations of a low intrusive real-time assessment setup. The need to use more metrics to reliably identify the operator’s psychophysical state is also highlighted.

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Title: Real-time mental workload assessment with low intrusiveness for assembly processes: Limits and preliminary results
Creators: Riccardo Gervasi
Matteo De Marchi
Luca Mastrogiacomo
Dominik Matt
F Francheschini
Publication Details: Italian Manufacturing Association Conference: XVII AITeM, Vol.57, pp.47-55
Editor(s): Fratini L, Settineri L
ISBN: 9781644903728
EISBN: 9781644903735
ISSN: 2474-3941
EISSN: 2474-395X
Conference: 17th Italian Manufacturing Association Conference, AITeM 2025 (Bari, 10/09/2025–12/09/2025)
Series / Volume: Materials Research Proceedings
57
Publisher: Association of American Publishers
Number of pages: 9
Identifiers: 978-164490372-8
(UNIBZ)90894063
991007137507301241
Scopus ID: 2-s2.0-105018595753
Copyright: Open Access: CC BY 3.0 license.
Academic Unit: Faculty of Engineering
Language: English
Resource Type: Conference proceeding
Author Names String: Gervasi R, De Marchi M, Mastrogiacomo L, Matt DT, Francheschini F
Additional Description: Editors/Supervisors: Fratini L, Settineri L

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