Radio frequency identification and sensing can benefit from the degrees of freedom offered by additive manufacturing processes, both bi-dimensional as well as three-dimensional ones. Moreover, the characterization of the electromagnetic properties of the involved materials plays an important role both in devising and designing innovative devices. The envisioned applications span from tags embedded in items to wearable sensors and metasurfaces adopted for enhancing probing signals into the human body.
Radio Frequency Identification and Sensing at the Additive Manufacturing Crosslab
Genovesi S.;Costa F.;Rodini S.;Gasperini D.;Manara G.
2022-01-01
Abstract
Radio frequency identification and sensing can benefit from the degrees of freedom offered by additive manufacturing processes, both bi-dimensional as well as three-dimensional ones. Moreover, the characterization of the electromagnetic properties of the involved materials plays an important role both in devising and designing innovative devices. The envisioned applications span from tags embedded in items to wearable sensors and metasurfaces adopted for enhancing probing signals into the human body.File in questo prodotto:
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