no code implementations • 26 Feb 2024 • Julia Beuster, Carsten Jan Smeenk, Saw James Myint, Reza Faramarzahanagri, Carsten Andrich, Sebastian Giehl, Christian Schneider, Reiner S. Thomä
With the upcoming multitude of commercial and public applications envisioned in the mobile 6G radio landscape using unmanned aerial vehicles (UAVs), integrated sensing and communication (ISAC) plays a key role to enable the detection and localization of passive objects with radar sensing, while optimizing the utilization of scarce resources.
no code implementations • 9 Feb 2024 • Maximilian Engelhardt, Sebastian Giehl, Carsten Andrich, Michael Schubert, Christian Schneider, Alexander Ebert, Markus Landmann, Giovanni Del Galdo
The next global mobile communication standard 6G strives to push the technological limits of radio frequency (RF) communication even further than its predecessors: Data rates beyond 100 Gbit/s, RF bandwidths above 1 GHz, and sub-millisecond latency necessitate very high performance development tools to enable the extent of innovation required for 6G's likely features.
no code implementations • 21 Oct 2022 • Reiner S. Thomä, Carsten Andrich, Julia Beuster, Heraldo Cesar Alves Costa, Sebastian Giehl, Saw James Myint, Christian Schneider, Gerd Sommerkorn
We emphasize the specific challenges arising for distributed (hence multi-link) ISAC networks and compare to the state of the art in propagation modeling for mobile communication.
no code implementations • 14 Oct 2022 • Sebastian Giehl, Carsten Andrich, Michael Schubert, Maximilian Engelhardt, Alexander Ihlow
Current and upcoming communication and sensing technologies require ever larger bandwidths.
no code implementations • 12 Oct 2022 • Maximilian Engelhardt, Carsten Andrich, Alexander Ihlow, Sebastian Giehl, Giovanni Del Galdo
In this paper, we implement a low-latency rapid-prototyping platform for signal processing based on software-defined radios (SDRs) and off-the-shelf PC hardware.