Project description
Scaling up mobile communication for mission-critical applications
The next generation of mobile communication networks must surpass current 5G capabilities to meet increasing demands for real-time transfer of important data in support of mission-critical tasks. Such networks must therefore provide high-capacity data transfer with extreme accuracy and negligible delay while hosting multiple tenants. The EU-funded DESIRE6G project aims to design and validate a zero-touch control, management and orchestration platform able to support applications that require extreme ultra-reliable low-latency communications. The design will feature near real-time autonomic networking and a cloud-native data plane layer to support multitenancy, backed by an extensive monitoring system. It will be tested in two situations using extended reality and a digital twin application.
Objective
Over the past decades the mobile communications has evolved over the different generations to the current 5G, and transformed into a fundamental infrastructure that supports digital demands from all industry sectors. However, 5G systems are expected to fall short on meeting the anticipated stringent performance requirements for the new generation of real time mission-critical applications. In view of that, DESIRE6G will design and develop novel zero-touch control, management, and orchestration platform, with native integration of AI, to support eXtreme URLLC application requirements. DESIRE6G will re-architect mobile networks through a) its intent-based control and end-to-end orchestration that targets to achieve near real time autonomic networking; and b) a cloud-native unified programmable data plane layer supporting multi-tenancy. The latter will be supported by a generic hardware abstraction layer designed for heterogeneous systems. Flexible composition of modular micro-services for slice specific implementations and flexible function placement depending on HW requirements will enable granular use case instantiation and service level assurance with minimum resource consumption and maximum energy efficiency. The DESIRE6G data, control, management, and orchestration plane is supported by a pervasive monitoring system, extending from the network to the user equipment or IoT terminal. DESIRE6G will employ distributed ledger technology to support a) dynamic federation for services across of multiple administrative domains and b) infrastructure-agnostic software security. Finally, DESIRE6G will enable communication-, and energy- efficient distributed AI, at the network edge, while considering application-level requirements and resource constraints. The proposed innovations will be validated employing a VR/AR/MR and a Digital Twin application at two distinct experimental sites.
Fields of science (EuroSciVoc)
CORDIS classifies projects with EuroSciVoc, a multilingual taxonomy of fields of science, through a semi-automatic process based on NLP techniques.
CORDIS classifies projects with EuroSciVoc, a multilingual taxonomy of fields of science, through a semi-automatic process based on NLP techniques.
- natural sciencescomputer and information sciencesinternetinternet of things
- natural sciencescomputer and information sciencessoftware
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Keywords
Programme(s)
- HORIZON.2.4 - Digital, Industry and Space Main Programme
Funding Scheme
HORIZON-JU-RIA - HORIZON JU Research and Innovation ActionsCoordinator
1012WX Amsterdam
Netherlands