![]() Deep Green eventually churned out a shape resembling Pac Man that achieved that type of reproduction at the cellular level for the first time.Īlthough it's fairly easy to imagine the downsides of a biorobot that’s able to continuously generate new copies of itself, researchers argued that the discovery represented a breakthrough in the understanding of how cells and living systems work. In the study, a supercomputer housed at Vermont used an evolutionary algorithm to test billions of potential shapes that could facilitate motion-based “kinematic” replication previously seen at the molecular level. In the newly published study, these “xenobots” swam around in a tiny dish gathering hundreds of new cells, then assembled them into a new xenobot that looks and moves just like the original within a few days. The team from Harvard University, Tufts University and the University of Vermont built what they called the world’s first living robots from frog cells as part of a study released last year. ![]() Scientists at three New England universities hailed the discovery of an entirely new form of reproduction - one in which tiny, computer-designed “living robots” are able to replicate themselves over and over again. ![]() This week, a newly released study appears to add yet another particularly thorny complication to the debate: robots that could reproduce on their own. As artificial intelligence increasingly infiltrates our lives, researchers and policymakers must continuously grapple with how to harness its almost-limitless potential while avoiding harmful consequences. ![]()
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