Post on 11-Sep-2020
5G-FORCE+ Research topics28 August 2020
Jose Costa-Requena, Aalto, Espoo
Research topics collected
28.8.2020
- Aalto, VTT, UOULU, UH, TUAS, TAU, Ericsson, Nokia, Centria, F-
Secure, Tieto
- Research topics:
- New Radio, High-Acc Positioning, URLLC, Ultra low power
devices, multi-site WAN (SCION), IIoT, TSN, 5GLAN,
Predictive QoS, AI for network and edge communications,
Security functions in 5G network elements .
- Vertical topics:
- eTextiles, Tactile Internet, eXR, cGaming, aerial 3D
connectivity (UAV), media broadcast..
-
What should be the structure
28.8.2020
- 5G-FORCE+ should be more research oriented- Long term research project + set of verticals (not
overlapping with other projects)
- Mid-size research project with several verticals
- Small focused research project with concrete
topics
Partner Research topics27 May 2020
Jose Costa-Requena, Aalto, Espoo
27-05-2020, v1
5G-FORCE+ topics (Aalto)
28.8.2020
• 5G/6G radio enhancements for URLLC, slicing, UDN, positioning
• Ultra-low power / battery-free massive machine type communications for beyond 5G
radio networks
5G-FORCE+ topics (Aalto)
28.8.2020
NB-IOT private: Network slicing for NB-IOT traffic4G/5G Mobile Network
L2 Switch
UPF1
AMF UDM
Indoors: Ericsson BTS
IOTSIM1
NSMMobile Backhaul
Orchestrator
IOTSIM2 UPF2
IOTSIM3
MEC
5G-FORCE+ topics (Aalto)
28.8.2020
Design and implementation of eMBMS for media
broadcast over mobile networks.
Study the usage of eMBMS for sending control message
to large amount of devices in selected geographical
areas.
Integration 5G with fixed LAN end to end seamless
transport
5G-FORCE+ topics (Aalto)
28.8.2020
Study replacement of BGP or other legacy routing by SCION in the PDN and may be also in other parts
of the network.ODC/Oulu
Disributed 5GTNEPC components
VTTOulu/5GTN+
Disributed 5GTNEPC components
University
Oulu/5GTN+
Helsinki UniversityKumpula TAKE5
CSC/ESpoo
Nokia EPCOulu/Rusko
CORNETCentria UAS/Ylivieska
Trial network
Tampere
TUAS/TurkuCORNET
AALTO Espoo/TAKE-5
VTT Espoo/TAKE-5
Nokia Karaportti/TAKE-5
CWDMMux
CWDMMux
FUNETDWDM
FUNETDWDM
NetAct/iOMS
Nokia SNRDistributed 5GTNEPC Components
OpenEPCEPC simulator
Willab
1Gb1Gb
1Gb
FUNET IP router
FUNET IP router
Nokia /TRe
FUNET IP router
1Gb
1Gb(10Gb)
10Gb
Router at Aalto/Nokia
Managed&Owned
IP router (L3)VPNTBD
Dedicated lightpath/VLAN (L2)
5G-FORCE+ topics (Aalto)
28.8.2020
"Etextiles based haptic feedback is useful for remote operation in the tactile Internet use case. This is
one of the 7 killer cases for 6G according to ITU doc."
5G-FORCE+ topics (TUAS)
28.8.2020
• 5G broadcast/multicast (use case: Live VR/AR
distribution)
• 5G-IoT deployment options for verticals
• 5G NR unlicensed utilization
• MEC issues in 5G (use case: Object detection
for video surveillance in MEC)
• Joint pilots with other testbeds
5G-FORCE+ topics (UOULU)
28.8.2020
Continue the 5G test network development to continue topics:
• MEC/local BO development, indoor coverage improvement
• Performance optimizations such as latency, high throughput for both
UL/DL
• Beamforming optimizations etc.
Research oriented project:
• mmWave with beamsteering, smart reflective surface and RF OTA
measurements.
• Rel 17 topics on the area of URLLC, mMTC and TSN related research.
• Positioning, machine learning and XR studies.
5G-FORCE+ topics (Nokia)
28.8.2020
• Co-innovation funding terms of BF assumed • For own effort and sub-contracting
• Next phase project(s) are driven by the Vertical use cases• Essential to include research on the 5G system for the selected Vertical use cases• Important to also include 5G research items for a wider angle 5G system evolution (e2e “horizontal” approach)
• Selection of the Vertical business areas & use cases to be made• New partners also needed from the Vertical businesses into the consortium• Several vertical business/use cases groups with commonality for 5G connectivity requirements• Differentiation from the 5G-VIIMA+ (?) Industry 4.0 areas (Digital Factory, Industry Campus, Smart Grids)• Examples: a) MBB for VR/AR applications (high bit rate & capacity), b) Low latency & high reliability applications
• European extensions & evolution to European projects. • European level co-operation? Plan for a follow-up phase on the European level (EU, Eureka, etc)?
• Scope of research on 5G in 2021-2022• 5G system evolution for 3GPP Rel-17 and Rel-18 standards• Some more future oriented topics on B5G?• mmW radio, eMBB (XR), 5G New Radio system (3GPP), URLLC, Edge computing, Business/techno-economic modelling, AI for
5G, Cyber Security?
• One project with several vertical business/use cases preferred
5G-FORCE+ topics (Nokia)
28.8.2020
5G RAN:• Industrial IoT
• Support of identified vertical use cases with enhanced IIoT/URLLC technologies. Investigating connectivity requirements from most relevant use cases (hopefully getting input from vertical partners/operators) e.g. higher data rates and traffic densities
• ML for network optimization for verticals’ needs (also input from verticals would be needed) • Enable Time Sensitive Communications (TSC) for private wide area networks. Practical use cases need more versatile synchronization/timing delivery solutions to enable
for wider market adoption• More efficient support of URLLC/TSC and eMBB traffic mix
• Enhanced Positioning• Emerging applications like autonomous applications (e,g. automotive applications) need high-precision positioning technology with high integrity and reliability in
addition to high accuracy. • Asset tracking, NR-U, V2X, IAB, location awareness
• XR (eXtended Reality) • XR applications with multi-Gbps and low latency requirements: telepresence, video streaming, online gaming etc. Investigating novel radio link concepts for future XR
applications and new devices types. • Support of XR and Cloud Gaming applications on the move (i.e. allow mobility) while minimizing user experience degradation to better enabling mass adoption of such
services and applications• XR and Cloud Gaming applications may require high-throughput and low-latency also on the uplink and thus, enhancements to the 5G uplink performance including UL
coverage performance are needed.5G CORE:• XR (eXtended Reality) and cloud gaming, 5G System needs to be enhanced to support interactive services with different KPIs requirements in uplink and downlink.• Multi-access evolution and their traffic steering mechanisms: MP-QUIC and MP-TCP.
5G EDGE:• Hierarchical AI models.• DistribUted PDU session processing between edge and core.
5G-FORCE+ topics (Nokia)
28.8.2020
Analyze the business environment around the use cases considered in the project in close collaboration between academic, industry and public sector partners.
Who owns the networks and has incentives in making investments in infrastructure?
Who owns the radio spectrum and virtualized network resources, and how can these be utilized more dynamically in an affordable manner?
Who owns the data and digital twins, how to get access to data and what added value can be generated using the data in communication networks?
How and why and what kind of platform-based ecosystemic business models can emerge?
What role redefined sustainable economy can play for future wireless?
What is the role of empowered user?
How new ecosystem roles and business models may emerge and change in different scenarios?
How the privacy and security regulation can act as trigger or barrier for new ecosystemicbusiness models?
How to regulate ubiquitous connected cognition bridging the physical, biological and the digital world?
High Med Med HighIMPACT
PESTLEN
Trends
Uncertainties
Data ownershipPublic NW funding
AI/ML Rights Geopolitics
Sustainable growthOTT customer ownershipMobile only next Billion Open value configuration
UN SDG goalsDemography
Hyperconnected Transhumanism
Quantum computingIndustry 5.0
Cyber securityHuman Machine interfaceEdge intelligence
Spectrum politics
Privacy protection
Data regulation
Net neutrality
Energy consumption
Sustainable material
Innovating to zero
Circular economy
Private networks China
Essential choices for developing preferred business of 6G
Key trends and uncertainties 2030
Barriers
Customer 6.0
Drivers
Challenges
Empowereduser’s rights
Becoming of the sharing economy
Power of platforms
Regulation
UN SDGs
Decentralization
Rights of AI and HMI
Climate change
Disruptive business models
Business ecosystem representation
Business modelsfor ecosystems& stakeholders
Quantitative techno-economic analyses
Related policy and regulatory advice
5G-FORCE+ topics (VTT)
28.8.2020
TSN and wireless ethernet for industrySub millisecond wireless controlTime synchronisations
Network of networksPrivate network - public network interoperabiltyService mobilitySlicing5G LAN
Predictable QoSUltra reliabilityService adaptation
AI boosted communicationDistributed data processingEnd to End optimisations, devices,edge, cloudOptimised everything: Energy consumption..
Network securitySDN, security functionality testing, blockchains
Autonomous everything
Vehicles, Apllications, decisions etc.
Cyberspaces, VR, AR, MR -> XRHuman - Virtual world - real world interaction
5G-FORCE+ topics (VTT)
28.8.2020
5G-FORCE+ topics (TUNI)
28.8.2020
Further development of the 5G test network, to incorporate larger outdoor coverage areas on campus in terms of cell sites
E.g. Positioning capabilities with network based approaches utilizes more than one cell
E.g. Remote control performance studies over 5G connection in terms of cell handovers & macro mobility (specifically the URLLC functionality in these cases)
Further development of the 5G test network, to incorporate indoor coverage (indoor small-power base-stations) in different buildings of the campus
Indoor environment studies differ greatly from those of the outdoor ones
Indoor positioning with several cells
Outdoor-to-indoor mobility studiesUpgrading the 5G test network to millimeter-wave frequencies, particularly the 26-28 GHz band that is currently being processed in terms of frequency licensing by TraficommmWave cells both for indoor and outdoor locations
Combining e.g. indoor-to-outdoor, cell handover, remote control operations with heterogeneous deployment of 3.5 GHz cells (outdoor/indoor) and 26-28 GHz mmWave cells
5G-FORCE+ topics (TUNI)
28.8.2020
• Connectivity for industry – especially factories and/or intelligent industrial machines
• Tampere area has good industry in this respect, e.g. Kalmar, Valmet, Metso, Sandvik, John Deere, etc
• Both high throughput/URLLC as well as sensors
• Connectivity for smart-cities
• Primarily IoT/sensors view – capillary NW technology
• Connectivity for skies
• All kinds of flying devices – consuming data, generating data and relaying data
5G-FORCE+ topics (TUNI)
28.8.2020
• Goal: enable new services and business models in logistics, asset management, smart lighting, smart metering, industrial IoT, etc.
• Challenge: connect very large numbers of IoT devices into a wireless mesh with scalable, reliable, and cost-efficient operation
• Our capabilities: site-specific test deployment, dynamic system simulations, protocol and standards development, validation
• Proposal: building test network capabilities for emerging massive IoT applications with extreme densities of connected nodes
• Construction and adjustment of radio communication protocols
• Deployment options for various vertical IoT-centric use cases
• Support of commercial IoT services and new business models
Low latency backhaul mesh
network
Example nodes from one floor
5G-FORCE+ topics (TUNI)
28.8.2020
• Goal: enable new services and business models in process automation, teleoperation, gaming, construction, urban living, etc.
• Challenge: connect moving AR/VR/XR equipment in dense scenarios and facilitate seamless computation offloading
• Our capabilities: ‘indoor’ measurements, system-level modeling capabilities, expertise with intelligent high-rate protocols
• Proposal: building test network capabilities for emerging AR/VR applications with multiple participants and/or on the move
• Development of improved radio protocols for seamless operation
• Machine learning tools for fog-/edge-based computation offloading
• Smart collective behavior: clustering, handover, dissimilar devices
5G-FORCE+ topics (TUNI)
28.8.2020
• Goal: enable new services and business models in maintenance, sensing, surveillance, industrial automation, maritime operation, etc.
• Challenge: reliably connect drones in scalable 3D formations and employ them as wireless service providers on-demand
• Our capabilities: drone testbed and measurements, modeling capabilities, experience with moderate formation sizes
• Proposal: building test network capabilities for emerging aerial applications with scalable and reliable operation on the fly
• Efficient use of radio technologies for UAV access and backhaul
• Artificial intelligence functions for real-time topology management
• Convergence of control, navigation, positioning & communications
5G-FORCE+ topics (TUNI)
28.8.2020
• Development of signal processing and concept solutions for high-accuracy radio-based positioning and radio-based sensing/radar/imaging in NR network context
• Technically feasible in both cmWave and mmWavenetworks, feasible also in non-line-of sight (NLOS)
• TAU extensive background and competence in both areas
• Work could have both research and experimentation components, and can also be connected to multiple timely verticals and applications (industrial environments, moving machines, cars, drones, etc)
5G-FORCE+ topics (Univ Helsinki)
28.8.2020
Edge intelligence: AI for network and edge for AI.
• Cooperation on EdgeAI SIG with Aalto in FCAI.
• Contributed to the Edge AI 6G white paper.
Enable relevant methods for security and privacy topics for verticals.
• coherent and consistent privacy protection of vertical domain identities and 5G identities
• interplay of security and privacy mechanisms in vertical domain and 5G network
• extensions to 5G security and privacy for the purposes of particular verticals
5G-FORCE+ topics (F-Secure)
28.8.2020
Implementing F-Secure SENSE security functions in 5G network elements instead of the home CPE network element.
How to obtain traffic metadata from 5G networks cost efficiently?
• There’re costly ways to do it, but that’s unacceptable for consumers
• Cost level target for traffic metadata acquisition for traffic analysis-based protection is < 0.2 € per device per month
• Relevant network metadata to be used in ML and other algorithms:
• Traffic flows created and closed (Source & destination addresses and ports, IP protocol)
• Sliding window average bandwidth used per flow (uplink and downlink)
• Median of packet sizes in flows
• Inter-packet delay in flows
• In-flow packet median TTL
How to map 5G network traffic flows to user or device identities?
• Identity is needed in order to offer user-specific protection
• Identity should be pseudonymized for privacy and legal reasons
• Mapping needs to be real-time or near-real-time in order to provide near-real-time protection
How to block individual flows in 5G networks based on verdicts of detection algorithms?
• Blocking actions taken as response measures
5G-FORCE+ topics (Others)
28.8.2020
• Other partners are interested to participate in some
research activities.
• To provide more detail on topics of interest once the
big picture is clarified
THANKS!
Jose Costa-Requena, Aalto, Espoo