Robots that can rapidly plan out their movements could accelerate factory automation—and help keep fragile humans safe.

Putting your hand in front of an industrial robot arm is not, generally, a good idea. These machines might move quickly and precisely, but they are so blind and stupid that they’ll gladly break a limb without so much as an “oops.”

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So it took a little courage to try this trick with a robot arm being tested at Realtime Robotics, a startup located in Boston’s Seaport neighborhood. I reached forward to intercept its movement as it grasped a widget from a table and moved to put it in a box. Thankfully, the robot paused, moved deftly around my outstretched arm, and then neatly deposited the item in its box. No broken limbs today.

This kind of graceful adaptability could prove incredibly useful for the robotics industry. There are some robots that can work alongside people, but they tend to be low-power, imprecise, and of limited use. The most capable, and powerful, industrial machines still have to work in very precisely controlled environments, away from soft, breakable humans.

“Even if you’re not worried about having humans next to the robot, you might want to modify your cell without incurring the cost of bringing in a technician,” says Sean Murray, a robotics engineer and cofounder at Realtime Robotics who showed me around.

The movement problem

A number of companies are trying to find ways around this problem. Some are testing sensors that will stop a powerful robots in its tracks if it spots an obstacle. Realtime Robotics is trying to go further, by giving robots the kind of low-level intelligence needed to move through the real world. This is the physical awareness that humans and animals take for granted whenever they move an arm or a leg.

In several different rooms at Realtime, industrial robot arms are testing the capabilities of a new chip that the company has developed to make this possible. When hooked up to 3D sensors, this chip lets the machines rapidly consider a range of different actions, effectively “imagining” the outcome, before choosing the one best suited to the task at hand. In one room, I watched as two robots performed balletic feats of teamwork, gliding around one another and occasionally handing over items.

“The fundamental challenge is that robots are so stupid,” says George Konidaris, founder and chief roboticist at Realtime as well as an assistant professor at Brown University in Providence, Rhode Island. “We have this basic motor competence and robots don’t.”

Motion planning is deceptively difficult for a robot, partly because each joint adds an extra dimension to the calculations that must be performed.

Make your move

The company’s chip supercharges the mathematical computations behind a relatively simple motion-planning algorithm developed by Konidaris and others while he was at Duke University. By running the computations in parallel, the dedicated chip can perform them more than 10,000 times more quickly than a regular computer chip, while also using less power.

“The approach is very clever,” says Tomás Lozano-Pérez, a professor at MIT who advised Konidaris when he was a graduate student.

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[Originally posted by MIT Technology Review — June 17, 2019]

ABOUT REALTIME ROBOTICS

We are transforming automation in its broadest sense by enabling machines to recognize, respond and decide how and where to move in milliseconds, even in variable environments. Our RapidPlan processor harnesses cutting-edge computer processing and software to end the trade-off between speed and safety that’s holding automation back today.