Design and Effective Non-Invasive Blood Glucose Measurement System Based on Electromagnetic Technique

A non-intrusive blood glucose detecting a design for a microwave detector is proposed in our presented paper. It empowers effective interpretation and treatment of diabetic patients. Escorted this cast, three different microwave resonator compositions are analyzed through the basic simulation, and the strength and frailties are high point in each exposition. This paper presents a exceedingly responsive and compact size non-intrusive microwave sensors for parallel blood glucose detecting.This present work in this paper is done to manifest the expedience of noninvasive detecting blood glucose degrees. The approach is based on the correlation of the antenna's resonant frequency to the complex permittivity and conductivity of blood and how they are related to the glucose levels. This present project shows more sensitivity, gain and accuracy than others. The picking resonator is an open formation in which a finger of the sufferer is set down, complying with the part of a sample to be identified by the detector. A prototype detector is simulated in the CST Microwave Studio Suite and auspiciously appraised using several glucose concentrations in glucose-blood solution. Simulated results demonstrate 140 kHz/mgdL-1 measurement sensitivity, gain was approximately 9.4093357 dBi which are higher in comparison with available microwave sensors in PCB machinery. It also introduces a higher gain than the previous published prototype sensors. This sensor will try to diminish the diabetes rate as well as the mortality rate around the world. It will encourage people for the diabetes test as there is no fear for the finger pricking. The prototype sensor size is 68 mm×48 mm×1.6 mm.