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Scientists have combined radar and artificial intelligence (AI) technologies to detect changes in glucose levels, a breakthrough that can help diabetics monitor their blood sugar levels without painful bites several times a day.
AI Can Help Diabetics Monitor Blood Sugar Levels Without Painful Bites | Photo: & nbspThinkstock
Toronto: (AI) technologies to detect changes in glucose levels, an advance that can help diabetics monitor their blood sugar levels without painful bites several times a day. The research involves a collaboration with Google and the German computer hardware company Infineon, which jointly developed a small radar and asked the opinion of some teams around the world about potential applications.
Scientists have combined radar and artificial intelligence technologies with glucose levels, a breakthrough that can help diabetics monitor their blood sugar levels without painful punctures several times a day. The research involves collaboration with Google and German computer hardware company Infineon, which jointly developed a small radar camera and solicited contributions from selected teams around the world on potential applications.
"We want to feel the blood in the body Our hope is that this can be achieved as a smartwatch to monitor blood sugar continuously," said George Shaker, professor of engineering at the University of Waterloo in Canada.
The Waterloo system uses radar to send high frequency radio. waves in liquids containing various levels of glucose and receives radio waves reflected therein. The reflected wave information is then converted to digital data for badysis by automatic learning algorithms developed by the researchers.
The software is able to detect glucose changes based on more than 500 characteristics or wave characteristics, including the time required for them to bounce back to the device. The first tests with volunteers from the Waterloo Institute for Research on Aging have yielded results at 85% as accurate as invasive traditional blood test
"The correlation was really amazing: we showed that it is possible to use the radar the blood to detect changes, "said Shaker.
Next steps include refining the system to accurately quantify glucose levels and obtain results through the skin, which complicates the process. The researchers are also working with Infineon to shrink the radar device so that it is both low-cost and low-power. The data badyzed by AI algorithms is now sent wirelessly to computers, but the ultimate goal is a standalone technology similar to smartwatches that monitor heart rate.
"I hope we will see a portable device on the market There are challenges, but the research is proceeding at a very good pace," said Shaker
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