In this paper, the design and characterization of a device, able to analyze the electrical bio-impedance in the frequency domain and its variations with time, is presented. The whole system design, that employs a tetra-polar electrode configuration, a specifically developed printed circuit board, and a data acquisition card connected to a PC, is presented. The measurement system is controlled through LabVIEW virtual instruments. Different reference resistors and RC networks, with impedance values lying in the physiological range of bio-impedances, have been used for assessing the systematic and random uncertainty contributions, and to derive the calibration curves necessary to correct the systematic effects of the developed instrument. The obtained results show that it is possible to achieve excellent metrological performances with the proposed system, that is suitable to be developed in a low-cost and portable version. Two possible applications of the instrument are shown, i.e. cardiorespiratory activity monitoring and bioelectrical impedance spectroscopy.
Spettrometro e pletismografo di impedenza per applicazioni diagnostiche e di monitoraggio / Piuzzi, Emanuele; Pisa, Stefano; Pittella, Erika; Podesta', Luca; Rizzuto, Emanuele; Sangiovanni, Silvia; DEL PRETE, Zaccaria. - STAMPA. - (2017), pp. 127-128. (Intervento presentato al convegno I Forum Nazionale delle Misure tenutosi a Modena nel 14 - 16 settembre 2017).
Spettrometro e pletismografo di impedenza per applicazioni diagnostiche e di monitoraggio
PIUZZI, Emanuele;PISA, Stefano;PITTELLA, ERIKA;PODESTA', Luca;RIZZUTO, EMANUELE;SANGIOVANNI, Silvia;DEL PRETE, Zaccaria
2017
Abstract
In this paper, the design and characterization of a device, able to analyze the electrical bio-impedance in the frequency domain and its variations with time, is presented. The whole system design, that employs a tetra-polar electrode configuration, a specifically developed printed circuit board, and a data acquisition card connected to a PC, is presented. The measurement system is controlled through LabVIEW virtual instruments. Different reference resistors and RC networks, with impedance values lying in the physiological range of bio-impedances, have been used for assessing the systematic and random uncertainty contributions, and to derive the calibration curves necessary to correct the systematic effects of the developed instrument. The obtained results show that it is possible to achieve excellent metrological performances with the proposed system, that is suitable to be developed in a low-cost and portable version. Two possible applications of the instrument are shown, i.e. cardiorespiratory activity monitoring and bioelectrical impedance spectroscopy.| File | Dimensione | Formato | |
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