Chaos based blood glucose noninvasive measurement: new concept and custom study

• Published in: BIO web of conferences Vol. 8; p. 2005
• Main Authors: Cui, Li, Dai, Yuhang, Li, Wenshi, Feng, Yejia
• Format: Journal Article Conference Proceeding
• Language: English
• Published: Les Ulis EDP Sciences 2017
• Subjects: Blood; Blood glucose; Boolean algebra; Codec; Computer simulation; Decoding; Glucose; Glucose monitoring; Impedance; In vivo methods and tests; Latency; Measurement methods; Monitoring; resistors; Wrist
• ISSN: 2117-4458; 2273-1709; 2117-4458
• DOI: 10.1051/bioconf/20170802005

Background. Non invasive monitoring of Blood Glucose (BG) has been a challenge calling for new accurate and fast measurement methods. Objective. To propose new concept of chaos based BG non invasive test aiming at personal customization requirements. Methods. First to build the compact RC model of tissue BG through impedance precision measuring Kit, then to simulate and soft-test BG by Boolean chaotic Codec circuits in soft tool Multisim 13.0, The third to capture the chaotic decoding outputs with the Kit plus PC in calculated signatures of resistor and phase of the tested impedance at the subjects’ left wrist in synchronous test by Bayer BG meter. Results. All in controlled trials of Bayer BG meter, the chaotic BG modelling had gained three new compared formulae in merits of errors less than 1mmol/L and latency less than 1minute. Conclusion. During further verification of this chaotic test paradigm, the opened logic route of above methods will boost measurement experts’ confidence in overcoming future problems of blood glucose monitoring in vivo.