TECH

Drones and robots wove the University of Stuttgart's otherworldly new pavilion

If you want evidence of the innovative technology-related work being carried out at Germany's University of Stuttgart, all you have to do is take a stroll around campus. That's where the university recently unveiled a new carbon-fibre pavilion, named the ICD/ITKE Research Pavilion 2016/7.

Resembling a piece of otherworldly landscape from Ridley Scott's classic movie Alien, the 40-foot-long pavilion was constructed using a combination of cutting-edge drones and robots.

Its design was modeled on the silk hammocks created by moth larvae, and produced using more than 180 kilometers of woven resin-impregnated glass and carbon-fiber.

"Creating a long span structure, beyond the working space of standard industrial fabrication equipment, required a collaborative setup where multiple robotic systems could interface and communicate to create a seamless fiber laying process," the University of Stuttgart's website explains. "A fiber could be passed between multiple machines to ensure a continuous material structure. The concept of the fabrication process is based on the collaboration between strong and precise, yet stationary machines with limited reach and mobile, long-range machines with limited precision."

The construction process involved two stationary industrial robotic arms with the strength and precision necessary for the fiber-winding work, while a drone carried out the fiber-laying process.

"The UAV could fly and land autonomously without the need of human pilots, the tension of the fiber was actively and adaptively controlled in response to both the UAV and robot behaviors," the website continues.

Sure, we're unlikely to reach a point any time soon when robots and drones carry out the bulk of building work. However, work like this shows that it's certainly an available option if called for. "The series of adaptive behaviours and integrated sensors lay the foundation for developing novel multi-machine, cyber-physical fabrication processes for large scale fibre composite production," the creators note.

Hey, it's hard to argue with the quality of the results. Or to think of a way a human team could've so easily carried out the task!