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Taking a cue from the Marvel Universe, researchers report that they have developed a self-healing polymeric material with an eye toward electronics and soft robotics that can repair themselves. The material is stretchable and transparent, conducts ions to generate current and could one day help your broken smartphone go back together again.

The researchers will present their work today at the 253rd National Meeting & Exposition of the American Chemical Society (ACS).

“When I was young, my idol was Wolverine from the X-Men,” Chao Wang, Ph.D., says. “He could save the world, but only because he could heal himself. A self-healing material, when carved into two parts, can go back together like nothing has happened, just like our human skin. I’ve been researching making a self-healing lithium ion battery, so when you drop your cell phone, it could fix itself and last much longer.”

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The first step in producing an artificial thymus which has potential for cancer age related immune decline.

UCLA researchers have created a new system to produce human T cells, the white blood cells that fight against disease-causing intruders in the body. The system could be utilized to engineer T cells to find and attack cancer cells, which means it could be an important step toward generating a readily available supply of T cells for treating many different types of cancer.

The preclinical study, published in the journal Nature Methods, was led by senior authors Dr. Gay Crooks, a professor of pathology and laboratory medicine and of pediatrics and co-director of the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research at UCLA, and Amelie Montel-Hagen, an associate project scientist in Crooks’ lab.

The thymus sits in the front of the heart and plays a central role in the immune system. It uses to make T cells, which help the body fight infections and have the ability to eliminate cancer cells. However, as people age or become ill, the thymus isn’t as efficient at making T cells.

Continue reading “Artificial thymus can produce cancer-fighting T cells from blood stem cells” | >

April 5 (UPI) — The U.S. Defense Advanced Research Projects Agency has completed a round of testing for its vertical takeoff and landing X-Plane program.

The agency began testing for the program in March 2016 using sub-scale aircraft developed and fabricated by Aurora Flight Sciences. The platform is comprised of 24 electric ducted fans, 18 of which are distributed within the main wings. The remaining six are placed in the canard surfaces.

DARPA officials said the successful trials bring the agency closer to presenting a vertical takeoff and landing craft able to fly faster than existing hover-capable craft.

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A team of researchers has developed artificial synapses that are capable of learning autonomously and can improve how fast artificial neural networks learn.

Developments and advances in artificial intelligence (AI) have been due in large part to technologies that mimic how the human brain works. In the world of information technology, such AI systems are called neural networks. These contain algorithms that can be trained, among other things, to imitate how the brain recognizes speech and images. However, running an Artificial Neural Network consumes a lot of time and energy.

Now, researchers from the National Center for Scientific Research (CNRS) in Thales, the University of Bordeaux in Paris-Sud, and Evry have developed an artificial synapse called a memristor directly on a chip. It paves the way for intelligent systems that required less time and energy to learn, and it can learn autonomously.

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It isn’t easy to capture the best shots in a golf tournament that is being televised. And that’s why IBM is applying the artificial intelligence of its Watson platform to the task of identifying the best shots at The Masters golf tournament.

For the first time at a sporting event, IBM is harnessing Watson’s ability to see, hear, and learn to identify great shots based on crowd noise, player gestures, and other indicators. IBM Watson will create its own highlight reels.

With 90 golfers playing multiple rounds over four days, video from every tee, every hole, and multiple camera angles can quickly add up to thousands of hours of footage.

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