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Injectable Computers
Posted in biotech/medical, computing, engineering
With a radio specifically designed to communicate through tissue, Professors David Blaauw (http://web.eecs.umich.edu/faculty/blaauw/) and David Wentzloff (http://web.eecs.umich.edu/~wentzlof/) from the University of Michigan’s Electrical and Computer Engineering Department (https://www.eecs.umich.edu/ece/) are adding another level to a computer platform small enough to fit inside a medical grade syringe.
With this enabling technology, real time information can be applied to devices monitoring heart fibrillation as well as glucose monitoring for diabetics.
This new radio, designed by Graduate Student Research Assistant Yao Shi, can transmit information from inside the body up to one foot to a data base receiver, more than 5 times the distance from any known radio of equal size.
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Different species of animals either live a very long time or do not die of old age. Some cases are the tortoise & lobster species that live to be over 130 years old naturally and don’t usually die unless they get sick or are killed.
After we grow up our cells ultimately stop self-replicating. A researcher named Leonard Hayflick figured out that each of our cells divide around 50 times and then they stop. Once all of our cells stop duplicating we start to deteriorate and then ultimately die. This finding showed that we are in fact programmed to die biologically.
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Nation states cause some of our biggest problems, from civil war to climate inaction. Science suggests there are better ways to run a planet.
By Debora MacKenzie
Try, for a moment, to envisage a world without countries. Imagine a map not divided into neat, coloured patches, each with clear borders, governments, laws. Try to describe anything our society does – trade, travel, science, sport, maintaining peace and security – without mentioning countries. Try to describe yourself: you have a right to at least one nationality, and the right to change it, but not the right to have none.
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Miniaturization is one of the most world-shaking trends of the last several decades. Computer chips now have features measured in billionths of a meter. Sensors that once weighed kilograms fit inside your smartphone. But it doesn’t end there.
Researchers are aiming to take sensors smaller—much smaller.
In a new University of Stuttgart paper published in Nature Photonics, scientists describe tiny 3D printed lenses and show how they can take super sharp images. Each lens is 120 millionths of a meter in diameter—roughly the size of a grain of table salt—and because they’re 3D printed in one piece, complexity is no barrier. Any lens configuration that can be designed on a computer can be printed and used.
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