Summary
6G is expected to trigger a total rethink of network architecture design, adopting the new Network of Networks vision which promotes the integration of multi-stakeholder, multi-technology infrastructures. To this end, future 6G systems will tightly integrate upcoming satellite systems and Low-Earth Orbit constellations (e.g., OneWeb) as well as High-Altitude Platforms (HAPs) and unmanned aerial vehicles (UAVs), a concept termed as integrated Terrestrial and Non-terrestrial Networking (TNTN). However, the sheer scale and heterogeneity of future TNTN infrastructures is expected to create a unique set of challenges. To this end, 6G-TERRAIN adopts Integrated Communication and Sensing (ICAS) as a key enabler of TNTNs, allowing to perceive the complex and dynamic TNTNs through sensing the physical environment. Moreover, 6G-TERRAIN aims to propose, design, and validate a novel Native AI automation architecture and its associated enabling technologies and theoretical frameworks, aiming for an intent 6G System with seamlessly integrated multi-stakeholder & multi-technology (e.g., terrestrial and non-terrestrial) nodes. Natural Language intents are adopted, exploiting the breakthrough capabilities of emerging LLMs to automatically plan the optimal decompositions of intents into tasks and prioritise their downstream execution. Finally, 6G-TERRAIN will build a training network to conduct top-notch research towards the development and experimental evaluation of a gamut of techniques, methodological frameworks and tools that will break the barriers currently impeding the realisation of the 6G “Network of Networks” vision.
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Web resources: | https://cordis.europa.eu/project/id/101169346 |
Start date: | 01-12-2024 |
End date: | 30-11-2028 |
Total budget - Public funding: | - 2 617 632,00 Euro |
Cordis data
Original description
6G is expected to trigger a total rethink of network architecture design, adopting the new Network of Networks vision which promotes the integration of multi-stakeholder, multi-technology infrastructures. To this end, future 6G systems will tightly integrate upcoming satellite systems and Low-Earth Orbit constellations (e.g., OneWeb) as well as High-Altitude Platforms (HAPs) and unmanned aerial vehicles (UAVs), a concept termed as integrated Terrestrial and Non-terrestrial Networking (TNTN). However, the sheer scale and heterogeneity of future TNTN infrastructures is expected to create a unique set of challenges. To this end, 6G-TERRAIN adopts Integrated Communication and Sensing (ICAS) as a key enabler of TNTNs, allowing to perceive the complex and dynamic TNTNs through sensing the physical environment. Moreover, 6G-TERRAIN aims to propose, design, and validate a novel Native AI automation architecture and its associated enabling technologies and theoretical frameworks, aiming for an intent 6G System with seamlessly integrated multi-stakeholder & multi-technology (e.g., terrestrial and non-terrestrial) nodes. Natural Language intents are adopted, exploiting the breakthrough capabilities of emerging LLMs to automatically plan the optimal decompositions of intents into tasks and prioritise their downstream execution. Finally, 6G-TERRAIN will build a training network to conduct top-notch research towards the development and experimental evaluation of a gamut of techniques, methodological frameworks and tools that will break the barriers currently impeding the realisation of the 6G “Network of Networks” vision.Status
SIGNEDCall topic
HORIZON-MSCA-2023-DN-01-01Update Date
23-12-2024
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