Capgemini, a global leader in business and technology transformation, Thales, a global leader in advanced technologies for the Defense, Aerospace and Cyber & Digital sectors, and Thales Alenia Space, a joint company between Thales (67%) and Leonardo (33%), have been selected by the French Space Agency (CNES) as part of a government-backed call for projects under the France 2030 program to lead an innovative demonstration of 5G direct-to-device (D2D) connectivity.

The project named U DESERVE 5G will demonstrate the feasibility of direct communications between satellites and mobile devices or fixed terminals (5G direct to device, or D2D). A demonstrator satellite will be placed in low-Earth orbit to test interoperability between terrestrial and non-terrestrial 5G networks. The project will use a set of scenarios to evaluate how smoothly devices can switch between satellite and terrestrial 5G coverage, which is a crucial step toward truly global, seamless, and uninterrupted connectivity.

At a time when anytime, anywhere connectivity has become a strategic priority both to meet market demand and ensure infrastructure resilience in crises satellite technology is emerging as a crucial and complementary solution alongside terrestrial networks.

At the core of the project is an innovative 5G satellite payload with an active antenna. It will enable voice calls and data transmission directly between the satellite and a test mobile device, without routing via a ground station. The demonstrator will include all components of the chain: test satellite, payload, NTN ground segment, and test mobile devices. It will be compatible with Release 17 of the 3GPP 5G standard and will provide an end-to-end test platform to evaluate the performance of the 5G NTN/TN system and trial use cases, especially involving the Internet of Things (IoT).

Drawing on its expertise in telecommunications and its successful efforts to promote satellite 5G standardization, Thales Alenia Space will lead the consortium, which brings together:

• Capgemini, responsible for radio access solutions and 4G/5G core networks.
• Thales which will assess the feasibility of a 5G D2D terminal with a directional antenna operating in the future C band.
• Orange, which will contribute its operator expertise and host the demonstration at its Bercenay facility in France.
• SES, in charge of studying the implementation of D2D services.
• Qualcomm which will supply a 5G NTN-compatible test mobile terminal.
• Loft Orbital, responsible for the platform, AIT (assembly, integration, testing), launch reservation, and satellite operations for the demonstration phase.

“This new 5G D2D project paves the way for Thales Alenia Space to provide high-speed coverage in areas not served by terrestrial networks, as well as emergency or continuity services in crises,” said Stéphane Anjuère, 5G Venture Leader for Thales Alenia Space. “By leveraging its expertise in geostationary telecommunications and medium- and low-Earth orbit constellations, our company has played a key role in the standardization of 5G by satellite and is ideally positioned to support future large-scale 5G D2D projects.”

“This pioneering 5G-by-satellite project represents a breakthrough for Thales and the telecommunications industry,” said Alexandre Bottero, VP Networks and Infrastructure Systems for Thales. “By developing 5G NTN D2D modem solutions enabling high-speed connectivity, even in the most remote areas, we’re laying the groundwork for the future of global communications and stepping up our commitment to a more connected and resilient world.”

“This project perfectly emphasizes Capgemini’s commitment to pushing the boundaries of connectivity. Thanks to our unique expertise in integrating terrestrial and non-terrestrial networks, in addition to our mastery of radio access solutions and 4G/5G core networks, Capgemini is playing a key role in demonstrating 5G via satellite,” said Angélique Lallouet, Executive Director of Capgemini Engineering in France. “We are particularly proud to be contributing to this strategic initiative alongside Thales Alenia Space, Thales, and all of our partners, and to be collaborating once again with CNES to advance French and European technological sovereignty.”

The NTN (nonterrestrial network) ground segment includes all the ground-based infrastructure needed to enable communication with nonterrestrial networks, such as satellites, high-altitude platform stations (HAPS), and stratospheric balloons.

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