Although many people, for example, believe the Mars Rover robots are champions of Artificial Intelligence, the robots do not “employ state-of-the-art AI algorithms.” Dey said he learned the distinction while collaborating with the NASA Jet Propulsion Laboratory dedicated to robotic exploration of the solar system. AI algorithms require extensive energy consumption to be computed — something that would quickly put the rover out of action in outer space. “On Mars, while exploring several large craters where sunlight might never reach, the rover has to commute and communicate in an optimized fashion with the least amount of external power source,” he said. “And having the state-of-the-art AI algorithm on such a robot would only drain the power source quicker.” But that doesn’t mean the rover isn’t smart in its own way. “Every ounce of the robot is optimized to perform the best at minimal cost,” he said. “So, next time, if you hear about Mars rover then be aware that it is the hard work and dedication of several intelligent researchers and engineers who had made that machine intelligent enough to do its job.
We can make robots that learn from mistakes, yet man still makes the same ones over, and over.
And now for Return to Flight, I'm chief of robotics working in the astronaut office in Houston, as a Canadian.
Advances in automation, artificial intelligence and robotics, while increasing productivity, will also cause major upheavals to the workforce.
It's a combination of science, maintenance, and general housekeeping. And then, occasionally, robotics activities or a spacewalk you might get to do.