The presented work shows how a user centered approach might be used to generate and select the optimal design of smart garments for biosignal acquisition. Design is driven by human biosignal analysis, allowing the translation of subjective user’s feelings into technical specification and the definition of customized criteria for concepts evaluation. So, different concepts are generated and, involving users again, the optimal one is chosen using multi criteria decision making based on Fuzzy AHP theory. A case study on a wearable system (i.e., electromyographic shorts) for football performance and risk injury analysis is shown.
Design of Wearables for Biosignal Acquisition: A User Centered Approach for Concept Generation and Selection / Caporaso, T.; Grazioso, S.; Di Gironimo, G.; Lanzotti, A.. - (2022), pp. 818-826. [10.1007/978-3-030-91234-5_83]
Design of Wearables for Biosignal Acquisition: A User Centered Approach for Concept Generation and Selection
Caporaso T.;Grazioso S.;Di Gironimo G.;Lanzotti A.
2022
Abstract
The presented work shows how a user centered approach might be used to generate and select the optimal design of smart garments for biosignal acquisition. Design is driven by human biosignal analysis, allowing the translation of subjective user’s feelings into technical specification and the definition of customized criteria for concepts evaluation. So, different concepts are generated and, involving users again, the optimal one is chosen using multi criteria decision making based on Fuzzy AHP theory. A case study on a wearable system (i.e., electromyographic shorts) for football performance and risk injury analysis is shown.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
