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Next-generation cars, secondary activities, and sitting configurations: In-line transmission of vertical vibration at seat cushion

Next-generation cars, secondary activities, and sitting configurations: In-line transmission of vertical vibration at seat cushion
Next-generation cars, secondary activities, and sitting configurations: In-line transmission of vertical vibration at seat cushion
Next-generation cars will be electric, connected, autonomous, and shared. Aboard, primary activities such as driving or travelling will coexist with secondary activities such as (self-) entertaining, socialising, relaxing, sleeping, working, and eating. Although secondary activities have already been identified, related seating issues have only been touched. A three-factor mixed-design laboratory experimental study was conducted to test whether the concept of 'sitting configuration' (introduced and defined in this paper) is appropriate to characterise the seat-occupant system as a whole. Specifically, investigated were main effects and interaction effects of (biological) sex, vibration magnitude, and sitting configuration on in-line transmission of vertical vibration at seat cushion. With the Six-Axis Motion Simulator of the University of Southampton, six men and six women occupying a production reclining car seat were subjected to four vibration magnitudes in four sitting configurations corresponding to four pairs of primary and secondary activities. Transmissibility and coherence functions were calculated from acceleration measurements. An ANOVA model of first-resonance frequency of transmissibility showed an appreciable main effect of both vibration magnitude (F(2.21, 22.11) = 369.54, p < 0.001, η² = 0.28, ηP² = 0.97, ηG² = 0.54) and sitting configuration (F(1.98, 19.80) = 82.27, p < 0.001, η² = 0.48, ηP² = 0.89, ηG² = 0.67) but failed to show an appreciable main effect of sex (F(1, 10) < 0.001, p > 0.99, η² < 0.001, ηP² = 0.001, ηG² < 0.001) and any appreciable interaction effects (p > 0.99, η² ≤ 0.004, ηP² ≤ 0.12, ηG² ≤ 0.02). Results suggest that the concept of sitting configuration is appropriate to characterise the seat-occupant system as a whole. Ultimately, in design and development of seats for next-generation cars, secondary activities and corresponding sitting configurations should be taken into consideration to optimise not only functionality, but also comfort and protection (and related affective/emotional attributes).
Next-generation cars, Electric vehicles, Connected vehicles, Autonomous vehicles, Driverless vehicles, Shared vehicles, Primary activities, Travelling, Driving, Secondary activities, (Self-) entertaining, Socialising, Relaxing, Sleeping, Working, Eating, Seating issues, Transport human factors and ergonomics, Whole-body human vibration, Objective seat-occupant responses, Motion environment, Biodynamics, Seating dynamics, Seat-occupant system, Sex, Gender, Vibration magnitude, Sitting configuration, In-line transmission, Vertical vibration, Seat cushion, Seat back, Footrest, Acceleration, Transmissibility, Coherence, First-resonance frequency, Three-factor mixed design, Three-way analysis of variance, Three-way ANOVA, Replication, Randomisation, Blocking, Main effects, Interaction effects, Effect size, Eta-squared, Interval estimates, Confidence intervals
1-19
Edinburgh Napier University
D'Amore, Francesco
9f62de99-7619-4b51-9f1e-a13c84f746e5
Qiu, Yi
ef9eae54-bdf3-4084-816a-0ecbf6a0e9da
Taylor, Mark
Maeda, Setsuo
D'Amore, Francesco
9f62de99-7619-4b51-9f1e-a13c84f746e5
Qiu, Yi
ef9eae54-bdf3-4084-816a-0ecbf6a0e9da
Taylor, Mark
Maeda, Setsuo

D'Amore, Francesco and Qiu, Yi (2019) Next-generation cars, secondary activities, and sitting configurations: In-line transmission of vertical vibration at seat cushion. Taylor, Mark and Maeda, Setsuo (eds.) In Proceedings of the 54th UK Conference on Human Responses to Vibration. Edinburgh Napier University. pp. 1-19 .

Record type: Conference or Workshop Item (Paper)

Abstract

Next-generation cars will be electric, connected, autonomous, and shared. Aboard, primary activities such as driving or travelling will coexist with secondary activities such as (self-) entertaining, socialising, relaxing, sleeping, working, and eating. Although secondary activities have already been identified, related seating issues have only been touched. A three-factor mixed-design laboratory experimental study was conducted to test whether the concept of 'sitting configuration' (introduced and defined in this paper) is appropriate to characterise the seat-occupant system as a whole. Specifically, investigated were main effects and interaction effects of (biological) sex, vibration magnitude, and sitting configuration on in-line transmission of vertical vibration at seat cushion. With the Six-Axis Motion Simulator of the University of Southampton, six men and six women occupying a production reclining car seat were subjected to four vibration magnitudes in four sitting configurations corresponding to four pairs of primary and secondary activities. Transmissibility and coherence functions were calculated from acceleration measurements. An ANOVA model of first-resonance frequency of transmissibility showed an appreciable main effect of both vibration magnitude (F(2.21, 22.11) = 369.54, p < 0.001, η² = 0.28, ηP² = 0.97, ηG² = 0.54) and sitting configuration (F(1.98, 19.80) = 82.27, p < 0.001, η² = 0.48, ηP² = 0.89, ηG² = 0.67) but failed to show an appreciable main effect of sex (F(1, 10) < 0.001, p > 0.99, η² < 0.001, ηP² = 0.001, ηG² < 0.001) and any appreciable interaction effects (p > 0.99, η² ≤ 0.004, ηP² ≤ 0.12, ηG² ≤ 0.02). Results suggest that the concept of sitting configuration is appropriate to characterise the seat-occupant system as a whole. Ultimately, in design and development of seats for next-generation cars, secondary activities and corresponding sitting configurations should be taken into consideration to optimise not only functionality, but also comfort and protection (and related affective/emotional attributes).

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D'Amore and Qiu, 2019 v2 - Other
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More information

Published date: September 2019
Venue - Dates: 54th UK Conference on Human Responses to Vibration (UK HRV 2019), Edinburgh Napier University, Edinburgh, United Kingdom, 2019-09-24 - 2019-09-26
Keywords: Next-generation cars, Electric vehicles, Connected vehicles, Autonomous vehicles, Driverless vehicles, Shared vehicles, Primary activities, Travelling, Driving, Secondary activities, (Self-) entertaining, Socialising, Relaxing, Sleeping, Working, Eating, Seating issues, Transport human factors and ergonomics, Whole-body human vibration, Objective seat-occupant responses, Motion environment, Biodynamics, Seating dynamics, Seat-occupant system, Sex, Gender, Vibration magnitude, Sitting configuration, In-line transmission, Vertical vibration, Seat cushion, Seat back, Footrest, Acceleration, Transmissibility, Coherence, First-resonance frequency, Three-factor mixed design, Three-way analysis of variance, Three-way ANOVA, Replication, Randomisation, Blocking, Main effects, Interaction effects, Effect size, Eta-squared, Interval estimates, Confidence intervals

Identifiers

Local EPrints ID: 435944
URI: http://eprints.soton.ac.uk/id/eprint/435944
PURE UUID: 34eee53f-e81a-44ad-a24d-2bca3c181c18
ORCID for Francesco D'Amore: ORCID iD orcid.org/0000-0002-6768-4043

Catalogue record

Date deposited: 25 Nov 2019 17:30
Last modified: 17 Mar 2024 03:44

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Contributors

Author: Yi Qiu
Editor: Mark Taylor
Editor: Setsuo Maeda

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