A software tool has been developed in order to evaluate bioelectrical currents. The tool is able to provide a graphical representation of the behaviour of small currents emitted by characteristic points of the human body and captured through a non invasive probe previously developed. The software implementation combines a variety of graphical techniques to create a powerful system that will enable users to perform an accurate and reliable analysis of the emitted currents and to easily go on to further applications and research. This paper introduces the design and the main characteristics of the tool and shows significant measurement results.
Best Session Paper Award / Fabbri, Gianluca; Boccaletti, Chiara; A. J., Marques Cardoso; L., Castrica. - (2010).
Best Session Paper Award
FABBRI, GIANLUCA;BOCCALETTI, Chiara;
2010
Abstract
A software tool has been developed in order to evaluate bioelectrical currents. The tool is able to provide a graphical representation of the behaviour of small currents emitted by characteristic points of the human body and captured through a non invasive probe previously developed. The software implementation combines a variety of graphical techniques to create a powerful system that will enable users to perform an accurate and reliable analysis of the emitted currents and to easily go on to further applications and research. This paper introduces the design and the main characteristics of the tool and shows significant measurement results.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
