Bio-implantable circuits always raise interest because it is already the frontier of overcoming different deficiencies of human body physiological limitations and impairments. They allow, on one hand the operating mode of internal organs, and the contact with outside, at the other hand, thanks to wired and/or wireless architectures. EEG (Electroencephalogram) signals are an example of a topic where scientists and researchers have been working to use them for preventing general and specific pathologies regarding namely central nervous system and other physiological aspects. This paper illustrates preliminary results of nanocircuits used for a bio-implantable neuro-case encompassing circuits useful for signal processing and measurement.
Nanocircuits for a bio-implantable system in EEG signal acquisitions
Lay-Ekuakille A.
;Gigli G.;
2018-01-01
Abstract
Bio-implantable circuits always raise interest because it is already the frontier of overcoming different deficiencies of human body physiological limitations and impairments. They allow, on one hand the operating mode of internal organs, and the contact with outside, at the other hand, thanks to wired and/or wireless architectures. EEG (Electroencephalogram) signals are an example of a topic where scientists and researchers have been working to use them for preventing general and specific pathologies regarding namely central nervous system and other physiological aspects. This paper illustrates preliminary results of nanocircuits used for a bio-implantable neuro-case encompassing circuits useful for signal processing and measurement.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.