In recent years, Non‑Terrestrial Networks (NTNs) have gained increased attention from the 3rd Generation
Partnership Project (3GPP) due to their potential to enhance cellular networks by improving coverage, resiliency, and
reliability, especially in rural areas and disaster scenarios. The upcoming Sixth‑Generation (6G) cellular networks aim to
establish layers of cells at different altitudes with Base Stations (BSs) on Earth and in space, providing a seamless user
experience. Testing and experimentation are crucial for realizing this ambitious vision. University of the Bundeswehr
Munich (UniBw M) is deploying a Beyond 5G (B5G) and 6G testbed comprising both space and ground segments. The
space segment of the testbed is composed of the ATHENE‑1 satellite that is going to be launched in 2025. The ground
segment includes the satellite ground station with several full motion antennas for the radiofrequency links and an optical
ground station for the free‑space optical link based on laser technology, while the Terrestrial Network (TN) component is
deployed using a Fifth‑Generation (5G) Non‑Public Network (NPN) with multiple gNodeBs (gNBs) and multiple 5G core
solutions. In its current state, the testbed includes various measurement equipment and emulators in the 5G Lab, a gNB
with two active cells, a core network, a satellite ground station, and a mobile 5G on‑the‑move solution. This testbed allows
various experiments including interference management between existing networks, positioning and localization, Public
Protection and Disaster Recovery (PPDR) using Multi‑Access Edge Computing (MEC) and NTN. This paper describes the
components of the Seamless Radio Access Networks for Internet of Space (SeRANIS) B5G testbed, the current status, future
deployment plan, preliminary test results, and planned tests.
«In recent years, Non‑Terrestrial Networks (NTNs) have gained increased attention from the 3rd Generation
Partnership Project (3GPP) due to their potential to enhance cellular networks by improving coverage, resiliency, and
reliability, especially in rural areas and disaster scenarios. The upcoming Sixth‑Generation (6G) cellular networks aim to
establish layers of cells at different altitudes with Base Stations (BSs) on Earth and in space, providing a seamless user
experience. Testing and...
»