Difference between revisions of "Projects:2017s1-156 Interrogating a Glucose Monitor"

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(Introduction)
(Introduction)
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For this project, we choose the Freestyle Libre company’s glucose monitoring device. We build a wearable device that provides users with the ability to get the readings at any time on their phone rather than using another company’s own-designed monitor reader equipment. The application installed on users’ phone will display the data on their screen and store the readings in a remote server to allow them to access the information from different devices.
 
For this project, we choose the Freestyle Libre company’s glucose monitoring device. We build a wearable device that provides users with the ability to get the readings at any time on their phone rather than using another company’s own-designed monitor reader equipment. The application installed on users’ phone will display the data on their screen and store the readings in a remote server to allow them to access the information from different devices.
  
===Freestyle Libre Flash Glucose Monitoring System=== [[File:Sensor.PNG|thumb|right|alt=Libre Freestyle Sensor|Libre Freestyle Sensor]]
+
===Freestyle Libre Flash Glucose Monitoring System===
 +
[[File:Sensor.PNG|thumb|right|alt=Libre Freestyle Sensor|Libre Freestyle Sensor]]
 
This product consists of two parts, sensor and reader. Both are communicated via NFC which means the reader need to be close enough to interact with sensor. The sensor is small and lightweight. Thus, it is also a water-resistant. It is designed to be worn for up to 14 days and it need to be applied on the back of the upper arm. When sensor is applied, a thin, flexible and sterile fibre is inserted just under the skin. Sensor dimensions is 35mm x 5mm and its weight is 5 grams. It has memory to store the data up tp eight hours.
 
This product consists of two parts, sensor and reader. Both are communicated via NFC which means the reader need to be close enough to interact with sensor. The sensor is small and lightweight. Thus, it is also a water-resistant. It is designed to be worn for up to 14 days and it need to be applied on the back of the upper arm. When sensor is applied, a thin, flexible and sterile fibre is inserted just under the skin. Sensor dimensions is 35mm x 5mm and its weight is 5 grams. It has memory to store the data up tp eight hours.
  

Revision as of 11:27, 22 September 2017

Introduction

The purpose of this project is to interrogate the commercially available product of flash glucose monitoring by building a wearable device. The importance of continuous glucose monitoring is to maintain the normal glucose tolerance in the human body. It would be useful for people who face life-threatening diabetes symptoms since if the diabetic patients take inappropriate actions without knowing their real-time blood sugar would result in losing their life. For this project, we choose the Freestyle Libre company’s glucose monitoring device. We build a wearable device that provides users with the ability to get the readings at any time on their phone rather than using another company’s own-designed monitor reader equipment. The application installed on users’ phone will display the data on their screen and store the readings in a remote server to allow them to access the information from different devices.

Freestyle Libre Flash Glucose Monitoring System

Libre Freestyle Sensor
Libre Freestyle Sensor

This product consists of two parts, sensor and reader. Both are communicated via NFC which means the reader need to be close enough to interact with sensor. The sensor is small and lightweight. Thus, it is also a water-resistant. It is designed to be worn for up to 14 days and it need to be applied on the back of the upper arm. When sensor is applied, a thin, flexible and sterile fibre is inserted just under the skin. Sensor dimensions is 35mm x 5mm and its weight is 5 grams. It has memory to store the data up tp eight hours.

Near Field Communication

Bluetooth

Group Members

Hui Wang

Wan Muhammad Che Mustafa

Supervisors

Prof. Mathias Baumert

Dr. Said Al-Sarawi

References