Wednesday, 16 October 2019

Robot assemblers build structures out of identical modular pieces

Pushing forward on the vision of "programmable matter," MIT researchers demonstrated a new kind of assembly system based on robots that can collaboratively build complicated structures from small identical pieces. Professor Neil Gershenfeld, graduate student Benjamin Jenett, and their colleagues present their research in a scientific paper titled "Material–Robot System for Assembly of Discrete Cellular Structures." From MIT News:

“What’s at the heart of this is a new kind of robotics, that we call relative robots,” Gershenfeld says. Historically, he explains, there have been two broad categories of robotics — ones made out of expensive custom components that are carefully optimized for particular applications such as factory assembly, and ones made from inexpensive mass-produced modules with much lower performance. The new robots, however, are an alternative to both. They’re much simpler than the former, while much more capable than the latter, and they have the potential to revolutionize the production of large-scale systems, from airplanes to bridges to entire buildings.

According to Gershenfeld, the key difference lies in the relationship between the robotic device and the materials that it is handling and manipulating. With these new kinds of robots, “you can’t separate the robot from the structure — they work together as a system,” he says. For example, while most mobile robots require highly precise navigation systems to keep track of their position, the new assembler robots only need to keep track of where they are in relation to the small subunits, called voxels, that they are currently working on. Every time the robot takes a step onto the next voxel, it readjusts its sense of position, always in relation to the specific components that it is standing on at the moment....

Ultimately, such systems could be used to construct entire buildings, especially in difficult environments such as in space, or on the moon or Mars, Gershenfeld says. This could eliminate the need to ship large preassembled structures all the way from Earth. Instead it could be possible to send large batches of the tiny subunits — or form them from local materials using systems that could crank out these subunits at their final destination point. “If you can make a jumbo jet, you can make a building,” Gershenfeld says.



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