Skip to content

To spread the use of robots in production environments, the implementation must be as easy as start using a household plug-and-play product. This is the target of the new research project “5G-ROBOT” lead by Aalborg University with professor Preben Mogensen at the helm. One of the technologies investigated by the project is the digital twin, with the creation of a digital copy of the physical environment.

Increase efficiency

The idea is that robots must learn to drive nicely in the production area if there are people within a certain range of the robot’s workspace. Vise versa they are allowed to speed up when there are no one in their vicinity, consequently increasing efficiency. Increasing efficiency must however never compromise safety, which is why it is paramount to be sure the area is “clear” before speeding up. To this end separate positioning systems will be part of the final system.

Primary positioning system

As the primary positioning system, the robots have LIDER and camera installed to determine if the path is clear. The challenge is that these systems need line-of-sight to be able to detect people. They will not be able to see a person standing close to their work area, but hidden behind e.g., a shelf. To this end radio waves come in handy as this technology can “see” behind corners. The vision is therefore that people in the production area must wear a radio tag for safety reasons.

Computer Vision technology

However, if someone forget to bring a radio tag, or the tag is not properly read, there must be a second system taking over. This back-up system will be delivered by Ambolt AI and is based on Computer Vision technology.

Positioning system from Ambolt AI

To find people in the work area, we use an object detector trained to find people. Once people are detected, they are tracked over time and their position is determined. Once detected we assume that the bottom of the bounding box is where their feet touch the floor and thus valid for positioning.

Their image position is then projected to map coordinates and we will compare our findings with the primary system. If both the primary and the secondary system find a person at the same location, all is good. In case the secondary system finds a person not detected by the primary system an alarm must initiate an action (exactly what kind of action has not yet been determined by the project).

To spread the use of robots in production environments, the implementation must be as easy as start using a household plug-and-play product.

Professor Preben Mogensen, Aalborg University

About the AAU led project

  • Investment from the Innovation Fund: 30 mill DKK
  • Total budget: 52 Mill DKK
  • Project duration: 3 years
  • Official title: 5G-Robot – 5G Enabled Autonomous Mobile Robotic Systems

Industrial end users:

Technology partners:

  • MIR (Mobile Industrial Robots A/S) and UR (Universal Robots) – leaders within mobile robots and robot arms respectively
  • Intelligent Systems and Technicon – leaders within digital industrial automation and industrial integration respectively
  • 5G-technology will be delivered by Telenor and Nokia