Please use this identifier to cite or link to this item: http://dspace.aiub.edu:8080/jspui/handle/123456789/678
Title: Design and Implementation of a NIR-Technique Based Non-Invasive Glucometer using Microcontroller
Authors: Bhuyan, Muhibul Haque
Monty, Shrestha Dey
Sarkar, Md. Rafsun Zani
Keywords: Diabetes
Blood glucose levels
Non-contagious disease
Proteus
IoT
Microcontroller
BGM
NIR Technique
Blood Glucose Monitor
Non-invasive
Issue Date: 31-Dec-2019
Publisher: Bangladesh Electronics and Informatics Society
Citation: M. H. Bhuyan, S. D. Monty and M. R. Z. Sarkar, “Design and Implementation of a NIR-Technique Based Non-Invasive Glucometer using Microcontroller,” Journal of Bangladesh Electronics and Informatics Society, ISSN: p-1816-1510, vol. 19, no 1-2, June-December 2019, pp. 75-84.
Series/Report no.: ;10
Abstract: Diabetes is called the major contributor to all types of major diseases and if the patients are not taken care of properly then eventually it causes death. However, this is a non-contagious disease. This disease occurs when the glucose level in the blood increases above a threshold value. Therefore, regular determination of blood glucose levels is a prerequisite to taking care of diabetic patients. Existing techniques for the determination of blood glucose levels are invasive techniques based on needles that are inserted into the human body to take blood samples out of the body and then it is passed to the disposable test strips for processing chemically to determine the amount of glucose present there. However, to alleviate the pain of the patient and use of test strips of these techniques has led to the development of non-invasive techniques. These techniques use near-infrared sensors for glucose level determination from the fingertip without requiring needles and test strips. Near-infrared (NIR) optical signal is transmitted through the fingertip’s one side and then received from its other side through which blood glucose’s molecular count is predicted by analyzing the variation in the received signal’s intensity after reflection and this data can wirelessly be transmitted to a remote PC through the use of IoT. In this work, we have developed a system using a microcontroller and other electronic parts. Before that, we developed a simulation model in the Proteus environment. After hardware implementation of the device, we measured the glucose levels of several persons having different age levels using our designed meter and the conventional invasive method-based meter. We found out that the average percentages of deviations are very small (5.15%) which proves that our designed meter is working very well.
Description: This is based on student research.
URI: http://dspace.aiub.edu:8080/jspui/handle/123456789/678
ISSN: p-1816-1510
Appears in Collections:Publications From Faculty of Engineering

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