A Project for Testing Pioneering Communication Technologies in Real-World Scenarios

Project Idea & Initial Situation

With 6G, sub-millisecond latencies, extremely high data rates, and seamless integration of terrestrial and satellite-based communication are expected to become possible. EPAK aims to evaluate these technologies under realistic conditions through pilot projects.

Development Steps

• Design and simulation of new waveforms and beamforming techniques

• Development of RF front ends using waveguide components and adaptive antennas

• Integration of drone tracking and 3D communication networks

• BLDC-controlled ground station units for precise alignment

• Field tests to verify range, latency, and energy efficiency

Results & Demonstrators

The project produced fully functional demonstrators showcasing the use of 6G in various scenarios. These include real-time control of autonomous systems, immersive communication applications, and new security solutions. The developed RF front ends and antenna systems were successfully tested and validated.

Technological Basis

The demonstrators integrated RF front ends, adaptive beamforming algorithms, and BLDC-controlled ground station units. Waveguide components were additionally used for signal routing. Simulations and field tests provided realistic insights into the performance of 6G technologies in real-world scenarios.

Cooperation

Collaboration with more than 20 renowned partners from industry and research, including Deutsche Telekom AG, Rohde & Schwarz, IMST GmbH, TU Kaiserslautern, and the University of Bremen.