Earcanal anthropometry analysis for the design of realistic artificial ears
Type de document
Résumés de conférences
Année de publication
2020
Langue
Anglais
Titre de la revue
The Journal of the Acoustical Society of America
Première page
2779
Résumé
How in-ear devices fit in the ear strongly influences the acoustical and mechanical (dis)comforts induced to the wearer. As important variations in the ear geometry exist based on gender, age and ethnicity, several studies collected ear anthropometric data as a basis for designing ear-mounted products. However, most of these studies focused on the ergonomic design of earbuds, and are thus limited to the geometry of the pinna, and concha (where earbuds fit). Few studies explored geometrical earcanal data for the design of intra-auricular hearing protectors that fit up to the earcanal second bend. The design of earplugs that fit to the widest range of earcanals requires realistic acoustical test fixtures representative of the population. This study uses statistical analysis and artificial intelligence based algorithms to cluster 32 Canadian workers pairs of earmolds scans as a function of earcanal curvilinear axis length, entrance, first and second bend cross sections area and circumference, but also earcanal tortuosity and cross sections aspect ratios. Dimensions relevant to cluster earcanals will be collected on a hundred of ears in a future study to design artificial ears which capture the inter-individual variability in mechanical and acoustical objective indicators related to the most important earplugs (dis)comfort attributes.
Mots-clés
Protège-tympan, Earplug, Bouchon d'oreille, Protection de l'ouïe, Hearing protection, Évaluation du confort, Comfort assessment
Numéro de projet IRSST
n/a
Citation recommandée
Poissenot-Arrigoni, B., Law, C. H., Sgard, F. et Doutres, O. (2020). Earcanal anthropometry analysis for the design of realistic artificial ears. The Journal of the Acoustical Society of America, 148(4 Suppl.), 2779. https://doi.org/10.1121/1.5147737