Tactile Internet (TI) is an emerging paradigm of the Internet of Things that exploits the Wireless Body Area Network wherein free-hand gestures are used as human/computer interface. The recently introduced Radiofrequency Augmentation Devices (R-FADs), which are assistive tools for sensory impaired people, can be considered also a promising enabler for TI. The core of R-FAD systems is a wrist reader and a fingertip sensor tag. An R-FAD for 'sensing' of dielectric objects can provide the users with feedback about the touched material. In this paper, we evaluate the variability of an R-FAD response on a personal basis. Results revealed that the user-specific variability can be mitigated by performing a calibration with respect to a high-permittivity material.
Bianco, G.m., Vivarelli, C., Amendola, S., Marrocco, G. (2020). Experimentation and calibration of Near-Field UHF Epidermal Communication for emerging Tactile Internet. In 2020 5th International Conference on Smart and Sustainable Technologies, SpliTech 2020 (pp.1-4). Institute of Electrical and Electronics Engineers Inc. [10.23919/SpliTech49282.2020.9243753].
Experimentation and calibration of Near-Field UHF Epidermal Communication for emerging Tactile Internet
Amendola S.;Marrocco G.
2020-01-01
Abstract
Tactile Internet (TI) is an emerging paradigm of the Internet of Things that exploits the Wireless Body Area Network wherein free-hand gestures are used as human/computer interface. The recently introduced Radiofrequency Augmentation Devices (R-FADs), which are assistive tools for sensory impaired people, can be considered also a promising enabler for TI. The core of R-FAD systems is a wrist reader and a fingertip sensor tag. An R-FAD for 'sensing' of dielectric objects can provide the users with feedback about the touched material. In this paper, we evaluate the variability of an R-FAD response on a personal basis. Results revealed that the user-specific variability can be mitigated by performing a calibration with respect to a high-permittivity material.| File | Dimensione | Formato | |
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Experimentation and calibration of Near-Field UHF Epidermal Communication for emerging Tactile Internet.pdf
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