This gap is why humans can use an image or text-based CAPTCHA, or Completely Automated Public Turing Test To Tell Computers and Humans Apart, as an online security measure to prove they aren’t bots. While artificial intelligence is inspired by human thought processes, the technology can’t fully replicate all capabilities of the human brain. “Biocomputing is an enormous effort of compacting computational power and increasing its efficiency to push past our current technological limits.” “Computing and artificial intelligence have been driving the technology revolution but they are reaching a ceiling,” said Hartung, senior study author, in a statement. Research describing the plan for organoid intelligence laid out by Hartung and his colleagues was published Tuesday in the journal Frontiers in Science. These “biocomputers” would employ networks of brain organoids to potentially revolutionize pharmaceutical testing for diseases like Alzheimer’s, provide insight into the human brain and change the future of computing. He and his colleagues envision combining the power of brain organoids into a type of biological hardware more energy efficient than supercomputers. Thomas Hartung, a professor of environmental health and engineering at the Johns Hopkins Bloomberg School of Public Health and Whiting School of Engineering in Baltimore, began growing brain organoids by altering human skin samples in 2012. Courtesy Jesse Plotkin/Johns Hopkins Universityĭr. The culture was dyed to show neurons in magenta, cell nuclei in blue and other supporting cells in red and green. This magnified image shows a brain organoid produced in Hartung's lab.
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