Summary
The 5G-CORAL project leverages on the pervasiveness of edge and fog computing in the Radio Access Network (RAN) to create a unique opportunity for access convergence. This is envisioned by the means of an integrated and virtualised networking and computing solution where virtualised functions, context-aware services, and user and third-party applications are blended together to offer enhanced connectivity and better quality of experience. The proposed solution contemplates two major building blocks, namely (i) the Edge and Fog computing System (EFS) subsuming all the edge and fog computing substrate offered as a shared hosting environment for virtualised functions, services, and applications; and (ii) the Orchestration and Control System (OCS) responsible for managing and controlling the EFS, including its interworking with other (non-EFS) domains (e.g., transport and core networks, distant clouds, etc.). Through the 5G-CORAL solution, several Key Performance Indicators (KPIs) can be achieved, notably an ultra-low end-to-end latency in the order of milliseconds. Moreover, new business prospects arise with new stakeholders in the value chain, notably small players owning computing and networking assets in the local service area, such as in shopping malls, airports, trains and cars. These environments will be used to validate the system in three complementary end-to-end large-scale testbeds in Taiwan, supporting innovative applications such as augmented reality, car safety, and IoT gateway.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/761586 |
| Start date: | 01-09-2017 |
| End date: | 31-08-2019 |
| Total budget - Public funding: | 3 856 973,75 Euro - 2 497 223,00 Euro |
Cordis data
Original description
The 5G-CORAL project leverages on the pervasiveness of edge and fog computing in the Radio Access Network (RAN) to create a unique opportunity for access convergence. This is envisioned by the means of an integrated and virtualised networking and computing solution where virtualised functions, context-aware services, and user and third-party applications are blended together to offer enhanced connectivity and better quality of experience. The proposed solution contemplates two major building blocks, namely (i) the Edge and Fog computing System (EFS) subsuming all the edge and fog computing substrate offered as a shared hosting environment for virtualised functions, services, and applications; and (ii) the Orchestration and Control System (OCS) responsible for managing and controlling the EFS, including its interworking with other (non-EFS) domains (e.g., transport and core networks, distant clouds, etc.). Through the 5G-CORAL solution, several Key Performance Indicators (KPIs) can be achieved, notably an ultra-low end-to-end latency in the order of milliseconds. Moreover, new business prospects arise with new stakeholders in the value chain, notably small players owning computing and networking assets in the local service area, such as in shopping malls, airports, trains and cars. These environments will be used to validate the system in three complementary end-to-end large-scale testbeds in Taiwan, supporting innovative applications such as augmented reality, car safety, and IoT gateway.Status
CLOSEDCall topic
ICT-08-2017Update Date
27-10-2022
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Organisations
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| UNIVERSIDAD CARLOS III DE MADRID (Coördinator)
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| ADLINK TECHNOLOGY INC
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| AZCOM TECHNOLOGY SRL
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| ERICSSON AB (ERIC)
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| INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE INCORPORATED (ITRI)
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| INTERDIGITAL EUROPE LTD
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| INTERDIGITAL GERMANY GMBH
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| NATIONAL CHIAO TUNG UNIVERSITY
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| SICS Swedish ICT AB
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| SP SVERIGES TEKNISKA FORSKNINGSINSTITUT AB
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| TELCARIA IDEAS SL
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| TELECOM ITALIA SPA