Transparent, reflective objects now within grasp of robots

Transparent, reflective objects now within grasp of robots
Researchers at Carnegie Mellon University have used machine learning and color cameras to teach robots how to better grasp transparent and reflective objects . Credit: Carnegie Mellon University

Kitchen robots are a popular vision of the future, but if a robot of today tries to grasp a kitchen staple such as a clear measuring cup or a shiny knife, it likely won't be able to. Transparent and reflective objects are the things of robot nightmares.

Roboticists at Carnegie Mellon University, however, report success with a new technique they've developed for teaching robots to pick up these troublesome objects. The technique doesn't require fancy sensors, exhaustive training or human guidance, but relies primarily on a color camera. The researchers will present this new system during this summer's International Conference on Robotics and Automation virtual conference.

David Held, an assistant professor in CMU's Robotics Institute, said depth cameras, which shine infrared light on an object to determine its shape, work well for identifying opaque objects. But passes right through clear objects and scatters off reflective surfaces. Thus, depth cameras can't calculate an accurate shape, resulting in largely flat or hole-riddled shapes for transparent and reflective objects.

But a color camera can see transparent and reflective objects as well as opaque ones. So CMU scientists developed a color camera system to recognize shapes based on color. A standard camera can't measure shapes like a depth camera, but the researchers nevertheless were able to train the new system to imitate the depth system and implicitly infer shape to grasp objects. They did so using depth camera images of opaque objects paired with color images of those same objects.

Once trained, the color camera system was applied to transparent and shiny objects. Based on those images, along with whatever scant information a depth camera could provide, the system could grasp these challenging objects with a high degree of success.

Gripping robots typically have troubles grabbing transparent or shiny objects. A new technique by Carnegie Mellon University relies on color camera system and machine learning to recognize shapes based on color. Credit: Carnegie Mellon University

"We do sometimes miss," Held acknowledged, "but for the most part it did a pretty good job, much better than any previous system for grasping transparent or reflective objects."

The system can't pick up transparent or reflective objects as efficiently as opaque objects, said Thomas Weng, a Ph.D. student in robotics. But it is far more successful than depth camera systems alone. And the multimodal transfer learning used to train the system was so effective that the color system proved almost as good as the depth camera system at picking up opaque objects.

"Our system not only can pick up individual transparent and reflective objects, but it can also grasp such objects in cluttered piles," he added.

Other attempts at robotic grasping of transparent objects have relied on training systems based on exhaustively repeated attempted grasps—on the order of 800,000 attempts—or on expensive human labeling of objects.

The CMU system uses a commercial RGB-D that's capable of both color images (RGB) and depth images (D). The system can use this single sensor to sort through recyclables or other collections of objects—some opaque, some transparent, some reflective.


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