Project CANTILO: Advancing 5G Campus Network with TSN Integration
"Project CANTILO focuses on developing a 5G campus network in millimeter frequencies with TSN integration and precise localization services. It aims to leverage the unique characteristics of 5G, such as millimeter wave technology, for industrial applications. The project involves channel modeling, network stack development, and deployment of localization solutions to enhance connectivity and support innovative industrial use cases."
- 5G Technology
- TSN Integration
- Precise Localization
- Millimeter Wave Frequencies
- Industrial Applications
Download Presentation
Please find below an Image/Link to download the presentation.
The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author. Download presentation by click this link. If you encounter any issues during the download, it is possible that the publisher has removed the file from their server.
E N D
Presentation Transcript
Summarized presentation Project CANTILO 5G mmw CAmpus Network with TSN Integration and precise LOcalization services
I - Project context and objectives Localization and TSN application ?1 ?1 Radio Channel Modeling mmWave PA & RF HW RU Innovations and Integration Beam Forming ICs Industrial UE Innovations Precise RU 5G Network Stack & TSN interworking localization and TSN research 5G Baseband & Core-Nwk mmw Localization Solutions Software-Defined- Radio O-RAN Compatible HW Cloud Services Secure Connection & Storage solutions Storage 2
I - Project context and objectives Context o Technological blocks of 5G are being deployed -> All the possibilities offered by this technology remain to be discovered. Far from being a simple evolution of 4G, 5G stands out by expanding the scope of applications well beyond just communication with cell phones. It is indeed the emergence of connected objects that allows 5G to be offered its full potential. Objectives o CANTILO's objective is precisely to exploit the key characteristic of 5G, that of millimeter frequencies. o CANTILO thus aims to develop a 5G campus network in millimeter frequencies with time-sensitive network (TSN) integration and precise location services. Characterization of industrial propagation environment 5G network planning using raytracing and PHY modelling (beamforming and hardware impairments) Setup of 5G mmW Campus Network with industrial UEs Reliable TSN traffic over the mmW network Development of localization solutions 3
II Targeted technologies and TRL Targeted technologies Channel sounding data base and propagation model framework (TRL 5) 5G network planning framework and PHY-KPI prediction (TRL 4/5) 5G mmW network infrastructure and user equipment, with integrated TSN and URLLC support (TRL 5/6) mmW based localization services (TRL 4/5) TRL 4
III Innovations and results versus the state of the art Innovation State-of-the-art Challenge Risk Result KPI Directional propagation measurements in industrial env Limited data base with directional information at mm-wave bands available Directional resolution at high frequencies, large data set collection for representative characterization Access to suitable industrial environment and possibility to publish the data Channel sounding data, modelling framework, comparison model and measurement data publications >100 measurement sample points in semi-mobile env., open-source implementation 5G network planning framework 5G beamforming capabilities are not considered, only simplified raytracing Combination of raytracing with 5G beamforming Access to 3D (2.5D) deployment model KPI predictions and specific evaluation, comparison with deployed system Assessment with KPIs from test deployment 5G mmW Campus Network with TSN and URLLC integration Rel 15 enabled FR2 (mmW) Reliable and Low Latency Communication (URLLC). Rel. 16 specification extended real-time capabilities of 5G NR to factory automation. Inter-working of 5G NR with TSN; Demanding HW and SW performance for URLLC features No straightforward implementation as 5G networks are highly flexible with many optional features. The interworking with TSN and time synchronization accuracy limits; meeting strict timing requirements Quantitative analysis of latency and reliability metrics using the 5G mmW Campus Network, potential areas of further enhancements Latency and reliability performance and involved tradeoffs First 5G deployment are focused on eMBB, NSA and FR1. Many URLCC features are not supported by existing base station and UEs. The integration of 5G SA system into TSN network is recently addressed into Rel-16, but no practical evaluation is available. Localization services Reliable sub-meter indoor/outdoor location for IIoT, and without deployment of many beacons, is not practically available Efficient NLOS and multipath mitigation, combining TDoA, multi- antennas and multi-bands High accuracy synchronization Cooperative positioning and synchronization Real-world mmWave propagation and scattering mmWave RF signal quality Quantitaive analysis of accuracy and synchronization Position accuracy Synchronization accuracy 5
IV Thematic and compliance with the programme scope Thematic Compliance with the programme o TO COMPLETE o Campus networks o Reliable mm-wave connectivity o Low Latency connectivity o Localization services for industrial applications o TSN support o Security and Privacy protection
V Project summary Duration: 01.01.2022-31.12.2024 Overall budget: 7,1M Allocation of efforts TRUMPF 2% EURECOM 15% NXP-DE 16% NSW 18% HHI 15% CA 15% NXP-FR 19%
VI Partners role and effort/cost Considering the capabilities of this hardware reference and radio propagation in the deployment environment, Fraunhofer HHI will develop a framework for network planning and performance prediction of millimeter-wave campus networks. CommAgility will integrate the TSN and the stack network. It will then be up to NestWave and Eurecom to apply the location algorithms. The platform thus built will show its full potential in the use case of Industry 4.0 under the supervision of Trumpf.
VIII - Value chain and work plan Value-chain Radio channel modeling and mmW KPI prediction Precise Localization TSN Interworking Enhanced RU Industrial UE Localization services GAIA-X Connector RF and Antenna ICs Baseband Processors Secure Edge device Hardware Platform Research and Software Network Integration Use Case Demonstrator WP 1 Work packages Use Cases and Requirements WP 2 Architecture WP 3 WP 4 WP 5 Precise mmW-based localization Front End and Radio Channel Secure TSN over mmW 5G Duration: 01.01.2022 31.12.2024 WP 6 Integration and Demonstration WP 7 Dissemination and Exploitation WP 8 - Project Management
Contacts NXP Germany o Fabian Mackenthun o Program Manager Industrial System Innovation o fabian.mackenthun@nxp.com o +491751117077 NXP France o Dominique D fossez o Strategy and Partnership Manager o dominique.defossez@nxp.com o +33627111421
