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This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 825496
5G-MOBIX Cross Border Corridors & Trial Sites
Technical activities, status & roadmap
Kostas Trichias (Technical Coordinator –WINGS ICT Solutions)
5G-MOBIX 1st Webinar, September 16th, 2019
LayoutX-Border focus of 5G-MOBIX
5G-MOBIX CBC/TS overview
2 Cross Border Corridors
5G-MOBIX CBCs / TSs – 5G Networks
5G-MOBIX CBCs / TSs – ITS Infra
5G-MOBIX CBCs / TSs – Vehicles
Roadmap
25G-MOBIX 1st Webinar - Slide
5G-MOBIX CBCs / TSs –X-Border Issues
X-border operation is the focus of 5G-MOBIX
Main X-border issues investigated in order to be tackled properly
4 main categories identified
Cross Border Telecommunication Issues
Service Quality/Continuity
Security and data protection
Automated driving/regulations
Distinct solutions to be applied and tested at the different CBCs / TSs
35G-MOBIX TR#1 - Slide
5G-MOBIX CBCs / TSs –X-Border Issues
Telecom Issues
Roaming (continuity, latency) Time
Difference
HO(gNB
change, fallback to
3G/4G)
Intereference @ the ITS Band
Coverage(Overlappi
ng, coverage
gaps)
Inter-MEC connectivi
ty
Hybrid Networking (inter-RAT
coms, IP addressing,
mobility
Geo-Networki
ng
4
Security -Privacy
Trust Model &
Certificate Policy
Data Protection & Privacy
Telecom Security
(Roaming, HO, Geo-
networking)
Automated Driving Security
Application Issues
V2X & Service
Continuity
Interopera-bility
Data Processing
Regulatory Issues
AD & Vehicle
regulations
Traffic & Road
conduct differenti
ation
Different spectrum allocation
s
Sensor regulation
s (Radar, Lidar)
HO Obligation
(no roaming
agreement in place)
Law Enforceme
nt
AV identification (AV vs Non-AV)
Network Neutrality
Overview of 5G-MOBIX CBCs / TSs
2 Cross-Border Corridors (CBC)
4 complementary European Trial Sites (TS)
2 complementary Asian Trial Sites (TS)
5 Use case categories based on 3GPP TS 22.186, focusing on x-border operation
24 SAE L4 automated vehicles
30 5G gNBs
Starting from NSA Architecture and evolving to SA during the project
55G-MOBIX 1st Webinar - Slide
Spain-Portugal Cross-Border Corridor
The Spain-Portugal corridor includesthe following use cases locations:
Spain - Vigo bay.
Spain - A-55 and AP-9 (nearCTAG). UC cat1.
Border - Old bridge. UC cat4
Border - New bridge. UC cat1
Portugal - A-28 (segment near thePorto airport and the BoatPassenger Terminal). UC cat1
Vigo-Porto highway roads with 5Gtests in the new bridge. UC cat5
M9 Project Review meeting, July 3rd 2019
ES-PT CBC Architecture
75G-MOBIX TR#1 - Slide
Internet
GRX International Connection
vMEC
Braga MEC
5G NSA Roaming with local break out
vMEC
Vigo MEC
S1-C
SGi SGi
S6a
S6a
S6a
S6a
5G gNB
4G eNB
S1-U
P-GW HSS
S5 S6a
S11
Madrid Lab Core
S-GW MME
P-GW HSS
S5 S6a
S11
Braga Lab Core
S-GW MME
S1-US1-C
S1-C
5G gNB
4G eNB
S1-U
S1-US1-CITS Platform
PORTUGALSPAIN
Greece-Turkey Cross Border Corridor
TMT Meeting – 4th of February 2019http://trakya.ticaret.gov.tr/saha-canli-goruntu/ipsala
GR-TR CBC Architecture
95G-MOBIX TR#1 - Slide
Overview of 5G-MOBIX CBCs / TSs – 5G NetworksMost sites will initially deploy 5G-NR over a 4G core (vEPC) –3GPP NSA Option 3x
NL and KR will deploy 3GPP SA Option 2 based on 5G core open source solutions and later upgrade
Home Routing (HR) and Local Break-Out (LBO) solutions will be investigated for inter-PLMN roaming in both CBCs.
Heterogeneous MEC implementations will be deployed and various experimentations frequencies will be utilized
Thorough description of 5G Architecture, ITS infra & Applications and Vehicles / OBUs in upcoming Deliverables D2.2, D2.3 and D2.4, respectively
105G-MOBIX TR#1 - Slide
CBC / TS3GPP Deployment
OptionNumber of gNBs
Experimentation Frequency
MEC Roaming Additional info
ES-PT 3X / (2) 72100 MHz (B1), 2600 MHz (B7),
3.5 GHz (n78)
Distributed (Far edge & central)
HR/LBO
GR-TR 3X / (2) 42600 MHz (B7),
3.5 GHz (n78)Edge computing
(SGi to PGW)HR/LBO
Coexistence with NB-IoT
DE 3X / (2) 2
2100 MHz (B1), 3.5 GHz (n78)
700 MHz (n12)
eRSUs withTUBMEC, DT MEC
Emulated PLMN,
Multi-Core
2x Core, DE RAN & TUB
RAN
FI 3X / (2) 2 3.5 GHz (n78)Commercial +
SDN basedMulti-PLMN
Multi-PLMN testing
FR 3X / (2) 2
700 MHz (4G), 800 MHz (4G), 1800 MHz
(4G), 2100 MHZ (3G/4G), 2600 MHz
(4G), 3700-3800 MHz (n77)
Yes
Satellite as infill for cellular
coverage gap
MEC optimization during inter-
PLMN HO
NL 3X / 2 8
800 MHz (LTE B20), 1800 MHz (LTE B3),
700 MHz (5G NR n28), 3.5 – 3.7 GHz (5G NR
n78)26.65 GHz (5G NR
n258)
Multiple
(Kubernetes based)
HR/LBOMulti-PLMN testing with
peering
CH 3X / (2) 2
3.5GHz(n78)
4.9 GHz(n79)
2.6GHz(n41)
Yes TBD
KR 2 3 22-23.6 GHz TBD N/A
Overview of 5G-MOBIX CBCs / TSs – ITS InfraRoad side infrastructure comprises RSUs, MEC, road sensors, edge / cloud platforms, CCAM applications, data collection tools, etc.
Focus on integration of road side infrastructure with the 5G network and CCAM enabled vehicles
Guarantee service / application continuity
High-level architecture describing the Physical, Functional and Communication view of the 5G-MOBIX deployment
Thorough description of all ITS infrastructure in D2.3
115G-MOBIX TR#1 - Slide
Overview of 5G-MOBIX CBCs / TSs –Vehicles
Large variety of SAE L4 vehicles with a multitude of on-board sensors
Different functional architecture utilized
Various OBU versions and functionalities
Starting from Rel.14 support and migrating to Rel.15 during the project lifetime
Supporting different Augmented Automated Driving Functions
125G-MOBIX TR#1 - Slide
5G-MOBIX Technical Roadmap until M24
Phase 1Development, procurement &
early deployment
Phase 2Development, deployment & trial planning
Phase 3Final roll-out,
integration & trial methodology
Early trialingInitial tests & trial readiness
verification
TrialingUse case
execution, result collection & evaluation
Jul. 2019 Oct. 2019 Jan. 2020
M9 M12 M15 M18 M21 M24
Apr. 2020 Jul. 2020 Oct. 2020
MS3 MS4
D3.1D3.2
D3.3
D3.4
D3.5
D2.2
D2.3
D2.4
D2.5
• Focus on roll-out plan per corridor (D3.1)
• Focus on development procurement and early deployment of components
• Finalize evaluation methodology (D5.1)
• Finalize CBC and TS trial plans (D4.1)
• Finalization of development
• Deployment of ALL components
• Initial integration efforts
• All functionalities & components ready and deployed
• Final technology roll-out & integration
• Testing of integrated functionality
• Trial methodology (D4.2)
• Initial functionality testing
• Trial readiness verification (D3.6)
• Initial feedback and pilot site fine-tuning
• Use case execution based on the trialing plan & methodology
• TSs contributions to CBCs
• Early evaluation results
D3.6
D5.1
D4.1
D4.2
135G-MOBIX TR#1 - Slide
www.5g-mobix.com
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 825496
Thank you
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