The Electrical Impedance Spectroscopy (EIS) measurements, in addition to being used for research purposes, are increasingly spreading in clinical setting. Thanks to the improvement of electronic and information technology, the necessary equipment is becoming increasingly simple and small, suitable for example for home care applications. In this work, the characteristics of a smartphone based system for impedance measurements are described. Besides, it is tested its reliability by measuring resistors of known values which fall in the range of bioimpedance. The proof demonstrator, here assessed, consists of a prototypal analogic, low-power chip capable of performing impedance measurements at different frequencies, a hardware support for the connection with a standard smartphone and an application properly developed. After its final validation, the proof demonstrator could be useful to design wearable devices for sport and consumer electronic.
Design of a smart EIS measurement system / Clemente, Fabrizio; Romano, M.; Bifulco, Paolo; Faiella, Giuliana; Molinara, M.; Cesarelli, Mario. - (2016), pp. 1-4. (Intervento presentato al convegno 5th IEEE International Conference on E-Health and Bioengineering, EHB 2015 tenutosi a Iasi, Romania nel 19 November 2015 - 21 November 2015;) [10.1109/EHB.2015.7391349].
Design of a smart EIS measurement system
CLEMENTE, Fabrizio;Romano, M.;BIFULCO, PAOLO;FAIELLA, GIULIANA;CESARELLI, MARIO
2016
Abstract
The Electrical Impedance Spectroscopy (EIS) measurements, in addition to being used for research purposes, are increasingly spreading in clinical setting. Thanks to the improvement of electronic and information technology, the necessary equipment is becoming increasingly simple and small, suitable for example for home care applications. In this work, the characteristics of a smartphone based system for impedance measurements are described. Besides, it is tested its reliability by measuring resistors of known values which fall in the range of bioimpedance. The proof demonstrator, here assessed, consists of a prototypal analogic, low-power chip capable of performing impedance measurements at different frequencies, a hardware support for the connection with a standard smartphone and an application properly developed. After its final validation, the proof demonstrator could be useful to design wearable devices for sport and consumer electronic.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
