When the Stanford Cart was first built, the control signals between the remote operator and the cart could imitate the 2.6-second delay that occurred in radio communications between the Earth and the Moon. (Image credit: The Board of Trustees of the Leland Stanford Junior University) The Stanford Cart in 1979, testing its ability to avoid objects. Here we look at Stanford’s robotic legacy – the robots, the faculty who make them and the students who will bring about the future of robotics. And, with all due respect to their ancestors, they’re a lot less shaky than they used to be. At Stanford alone, robots scale walls, flutter like birds, wind and swim through the depths of the earth and ocean, and hang out with astronauts in space. Thanks in large part to advances in computing power, robotics research these days is thriving. From those early ambitions, though, most robots moved out of the home and to the factory floor, their abilities limited by available technology and their structures too heavy and dangerous to mingle with people.īut research into softer, gentler and smarter robots continued. At that time, many people envisioned robots as the next generation of household helpers, loading the dishwasher and mixing martinis. Back in the 1960s, that future began with an Earth-bound moon rover and one of the first artificially intelligent robots, the humbly christened Shakey. For decades, Stanford University has been inventing the future of robotics.
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