Hannover Messe 2023: On the road to smart production: How reliably is 5G technology driving industrial automation?

Intralogistics robot on the university campus
In the future, autonomous intralogistics robots could carry out the transport of goods on factory premises. In the picture: One of the test robots on a transport drive at RPTU. Copyright: Alexfilms
Robot designed for precision farming applications
In the future, the application of pesticides could be more precise and efficient using 5G technology. In the picture: The field robot is part of an autonomous system for pinpoint chemical application, tested by RPTU researchers. Copyright: RPTU

The new 5G wireless standard promises to drive digitization by means of real-time communication. However, how reliable and stable is the technology in use cases involving the automation of industrial production and precision farming? Professor Dr. Hans Schotten, head of the "5G Kaiserslautern" research project and the Chair of Radio Communication and Navigation at RPTU Kaiserslautern-Landau, is conducting research on this. At the Hannover Messe, he and his team will provide insights into two projects at the "5G Kaiserslautern" booth (Hall 14, Booth H06/02) from May 17 to April 21: (Semi-)autonomous robots for intralogistics and agriculture.

Increasing shortages of skilled workers and the desire to save costs in the long term are the key drivers accelerating digitization and automation in industrial production. In order to be able to implement flexible solutions, wireless communication in real-time is key, as promised by the 5G mobile communications standard. The technology enables large volumes of data and safety-relevant information to flow back and forth quickly and process steps to run at the required pace.

Professor Schotten's team at RPTU is investigating whether 5G-based solutions can deliver on this promise for relevant application scenarios. At the Hannover Messe, the researchers will focus on the following two projects:

Transport by robot

The team is testing intralogistics robots for the transport of goods on a site, for example factory premises or a university campus. For this purpose, the researchers have two types of vehicles (up to 75 kg payload and up to 10 kg payload) in use at the RPTU. The delivery orders can be created automatically or triggered by pressing a button in a control station. Once the order has been initiated, the robot drives (semi-)autonomously to the transfer point, picks up the delivery and brings it to the destination. The entire fleet of vehicles can be tracked on a monitor wall in the control center. In addition to the camera images, all the sensor data, information on driving time, the current location and the package contents can be viewed there. This only works with the high data rates of 5G technology, because each individual robot requires a high upload bandwidth. It reports any problems or unknown situations to the control center, from where an operator takes over control via the 5G network – as fully autonomous driving under demanding real-world conditions is not possible yet. 

In the next step, or as soon as upcoming releases further increase the performance of the 5G mobile networks, more and more computing resources are to be outsourced from the robot to an edge cloud in order to reduce the complexity of the vehicles, their weight and energy consumption. Ultimately, this could make (semi-)autonomous transport vehicles more interesting for industrial customers, as this also reduces the purchase price and enables longer operating times.

Pinpoint crop protection measures

Agriculture also offers promising applications for fast mobile communications. Especially, when it comes to using resources efficiently and protecting the environment in the sense of precision farming. In the future, for example, it will no longer be necessary to use area-wide methods for fertilization, crop protection or irrigation, but rather highly precise, point-by-point methods.

As part of 5G-Kaiserslautern, researchers are testing an autonomous system that uses drones to locate weeds (dock) and an autonomous field robot to apply chemicals. The drone delivers images of the target area to an edge cloud, where the position of the weeds is calculated. This outsourcing of compute power saves energy and weight on the drone and thus massively increases the runtime. The field robot subsequently uses the processed data for its work. It independently follows the most efficient route in the field between the documented weed positions, detects the weeds by camera in order to apply the chemicals carried on board with pinpoint accuracy. Like a crop protection sprayer, it is able to switch on and off the nozzles on a spray bar, which is mounted at the front and connected to the tank at the rear. It is also wirelessly connected to the central control station, which enables remote access in the event of a problem or an unknown situation. Since in rural areas the often still patchy network coverage is a challenge, a mobile 5G network is used in this application.

For this project, too, the research team hopes that upcoming 5G releases will unleash more potential, finally proving the feasibility of the application. "Currently, the desired real-time communication has not yet been achieved," Schotten says. "One of the things we expect from announced upgrades is a large reduction in latency, which will minimize delays in data transmission."

Questions can be directed to:
Prof. Dr.-Ing. Hans Schotten
Chair of Radio Communication and Navigation
E-Mail: schotten(at)rptu.de
Phone.: +49 631 205-3595

Christian Schellenberger
Chair of Radio Communication and Navigation
E-Mail: christian.schellenberger(at)rptu.de
Phone: +49 631 205-5523

Intralogistics robot on the university campus
In the future, autonomous intralogistics robots could carry out the transport of goods on factory premises. In the picture: One of the test robots on a transport drive at RPTU. Copyright: Alexfilms
Robot designed for precision farming applications
In the future, the application of pesticides could be more precise and efficient using 5G technology. In the picture: The field robot is part of an autonomous system for pinpoint chemical application, tested by RPTU researchers. Copyright: RPTU

About RPTU

Since January 1, 2023, the Technical University of Kaiserslautern (TUK, University of Kaiserslautern) and the University in Landau have become the University of Kaiserslautern-Landau (RPTU). With over 20,000 students and more than 300 professors, the RPTU is the second largest academic institution in the state. As a place of top international research and an academic talent factory for business and science, RPTU offers excellent study and research conditions as well as a cosmopolitan environment. RPTU is also an innovation and transfer partner for politics, business and society. Those who study, learn, research or work at RPTU are part of a vibrant university community and shape the world of tomorrow.

 

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