An origami-like robot that can change shape, move around, and interact with people and objects has been developed by Jamie Paik and her team at EPFL’s School of Engineering.

The Mori3 robot is able to transform from two-dimensional triangles into almost any three-dimensional object by drawing inspiration from the digital world of polygon meshing and the biological world of swarm behavior. Modular robotics hold promise for space travel, as demonstrated by EPFL research that was published in Nature Machine Intelligence. Our point with Mori3 is to make a measured, origami-like robot that can be gathered and dismantled voluntarily relying upon the climate and job needing to be done,” says Jamie Paik, head of the Reconfigurable Mechanical technology Lab. ” Mori3 can change its size, shape and capability.”

A polygon robot

The singular modules of the Mori3 robot are three-sided in shape. In a process called “polygon meshing,” the modules simply join together to produce polygons of various sizes and configurations. Christoph Belke, a postdoctoral researcher in robotics, states, “We have demonstrated that polygon meshing is a viable robotic strategy.” The team had to push the boundaries of mechanical and electronic design, computer systems, and engineering in robotics in order to accomplish this. Belke explains, “We had to rethink how we understood robotics.” These robots have the ability to change their own shape, attach to each other, communicate with one another, and reconfigure to form structures that can move and talk. Mori3 robots are good at doing the three things that robots should be able to do, making this proof of concept successful: moving around, handling and transporting things, and interacting with other people are all included.

Space-bound: What advantages do modular and multifunctional robots offer? Paik makes sense of that, to play out a large number of errands, robots should have the option to change their shape or design. ” She claims that there are a wide range of applications for polygonal and polymorphic robots that can be effectively utilized. “These robots can connect to one another to create articulated structures.” Obviously, a general-purpose robot like Mori3 won’t be as effective in some situations as specialized robots. Nevertheless, Mori3’s greatest selling point is its adaptability. Mori3 robots were planned to a limited extent to be utilized in shuttle, which don’t have the space to store various robots for every individual undertaking that should be completed. The researchers anticipate that the Mori3 robots will be utilized for external repairs and communication.