Summary
The 6G-NTN project aims at researching and developing innovative technical, business, regulatory, and standardization enablers to achieve full and seamless integration of the Non-Terrestrial Network (NTN) component into the 6G system and establish the European leadership in this domain. The vision is to extend coverage, resilience, and sustainability of next generation mobile networks, meeting needs and expectations of both vertical and consumer market segments, while unleashing new value chains and creating broad societal impact.
The proposed concept of full-fledged integration of the NTN component into 6G leverages multiple key project outcomes that will pave the way for a service roll-out in the 2030-35 time frame:
- a sustainable and resilient 3D multi-layered (GSO, NGSO, HAPS, drones) network architecture.
- a software defined payload adapted to all flying platforms and all frequency bands
- a very low Earth orbiting space segment
- a flexible waveform supporting terrestrial and non-terrestrial deployments.
- the support of smart phones and vehicle/drone mounted terminals
- the use of new spectrum (i.e. C and Q/V bands) in coexistence with the terrestrial network component
- high accuracy and reliable positioning solutions.
The newly designed NTN component will deliver: i.e. uRLLC (latency < 10 ms) and advanced eMBB (data rate up to several hundred of Mbps) services to vehicle, drone mounted ultra-small size devices, and battery activated nomadic terminals; ii. improved eMBB services to smartphones; iii. short emergency messaging services to smartphones in light indoor/in-vehicle environments; and iv. high accuracy (
The proposed concept of full-fledged integration of the NTN component into 6G leverages multiple key project outcomes that will pave the way for a service roll-out in the 2030-35 time frame:
- a sustainable and resilient 3D multi-layered (GSO, NGSO, HAPS, drones) network architecture.
- a software defined payload adapted to all flying platforms and all frequency bands
- a very low Earth orbiting space segment
- a flexible waveform supporting terrestrial and non-terrestrial deployments.
- the support of smart phones and vehicle/drone mounted terminals
- the use of new spectrum (i.e. C and Q/V bands) in coexistence with the terrestrial network component
- high accuracy and reliable positioning solutions.
The newly designed NTN component will deliver: i.e. uRLLC (latency < 10 ms) and advanced eMBB (data rate up to several hundred of Mbps) services to vehicle, drone mounted ultra-small size devices, and battery activated nomadic terminals; ii. improved eMBB services to smartphones; iii. short emergency messaging services to smartphones in light indoor/in-vehicle environments; and iv. high accuracy (
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101096479 |
| Start date: | 01-01-2023 |
| End date: | 31-12-2025 |
| Total budget - Public funding: | 5 199 036,25 Euro - 4 797 967,00 Euro |
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Original description
The 6G-NTN project aims at researching and developing innovative technical, business, regulatory, and standardization enablers to achieve full and seamless integration of the Non-Terrestrial Network (NTN) component into the 6G system and establish the European leadership in this domain. The vision is to extend coverage, resilience, and sustainability of next generation mobile networks, meeting needs and expectations of both vertical and consumer market segments, while unleashing new value chains and creating broad societal impact.The proposed concept of full-fledged integration of the NTN component into 6G leverages multiple key project outcomes that will pave the way for a service roll-out in the 2030-35 time frame:
- a sustainable and resilient 3D multi-layered (GSO, NGSO, HAPS, drones) network architecture.
- a software defined payload adapted to all flying platforms and all frequency bands
- a very low Earth orbiting space segment
- a flexible waveform supporting terrestrial and non-terrestrial deployments.
- the support of smart phones and vehicle/drone mounted terminals
- the use of new spectrum (i.e. C and Q/V bands) in coexistence with the terrestrial network component
- high accuracy and reliable positioning solutions.
The newly designed NTN component will deliver: i.e. uRLLC (latency < 10 ms) and advanced eMBB (data rate up to several hundred of Mbps) services to vehicle, drone mounted ultra-small size devices, and battery activated nomadic terminals; ii. improved eMBB services to smartphones; iii. short emergency messaging services to smartphones in light indoor/in-vehicle environments; and iv. high accuracy (
Status
SIGNEDCall topic
HORIZON-JU-SNS-2022-STREAM-B-01-03Update Date
09-02-2023
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Organisations
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| ALMA MATER STUDIORUM-UNIVERSITA DI BOLOGNA (Coördinator)
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| CENTRE TECNOLOGIC DE TELECOMUNICACIONS DE CATALUNYA (CTTC)
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| DEUTSCHES ZENTRUM FUR LUFT - UND RAUMFAHRT EV
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| DIGITAL FOR PLANET-D4P
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| ERICSSON AB (ERIC)
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| ERICSSON FRANCE
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| GREENERWAVE
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| MARTEL GMBH (MARTEL GMBH)
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| ORANGE SA
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| QUALCOMM COMMUNICATIONS SARL
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| QUALCOMM FRANCE
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| SES TECHCOM SA
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| THALES ALENIA SPACE FRANCE
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| THALES ALENIA SPACE UK LTD
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| THALES COMMUNICATIONS & SECURITY SAS (THA-C&S)