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5G V2X Communication Prototype with Reconfigurable Frame Structure based on P‐OFDM Waveform – Cao Hanwen
© ETSI 2015. All rights reserved
Demo Description:The demo presents Huawei GRC’s development of a real‐time 5G V2X communication testbedFlexibly reconfigurable PHY frame structure and adaptive P‐OFDM waveform modulation Short TTI length to support mission‐critical low latency applications (One way ping delay < 0.5 ms)Reconfigurable pulse shape with different digital filter prototypes and over sampling rate enabling pulse shape adaptation for variant channel conditionsPure SDR architecture with low‐complexity baseband implementation running on Intel x86 platformEnabling D2D and Cellular assisted D2D accessA reconfigurable RF frontend (USRP 310X) connected to the BBU via GbE/PCIe One way ping delay
Hanwen Cao, Ali Ramadan Ali, Sandip Gangakhedkar, Josef Eichinger, Zhao Zhao
Collaborative coexistence between IEEE 802.15.4e (TSCH) and IEEE 802.11 technologies – Pieter Becue
© ETSI 2015. All rights reserved
WiSHF L
PORTABLE TESTBED
IMINDS W-ILAB.T
Collaborative coexistence between IEEE 802.15.4e (TSCH) and IEEE 802.11 technologies
© ETSI 2015. All rights reserved
WiSHF L
IEEE 802.15.4 alone IEEE 802.15.4 & IEEE 802.11 interference
WiSHFUL coexistence mechanism enabled
BLACKLISTING OF WIFI CHANNELS
TDMA SCHEME SHARED BY WIFI AND ZIGBEE (CROSS-TECHNOLOGY SYNCHRONIZATION BEACON)
Multi‐domain/technology Service Function Chain Orchestration and Monitoring based on SDN and NFV – Robert Szabo
novel architecture supporting automated, dynamic service function chain creation based on SDN and NFV technologiesinnovative mapping of virtualized infrastructure managers and NFVO into a hierarchical control plane structure
© ETSI 2015. All rights reserved
UNIFY is co-funded by the European Commission
DG CONNECT in FP7
original method providing recursive query capabilities on performance metrics of NFV infrastructure
EU‐FP7‐UNIFYGrant Agreement No. 619609
5GPPP Coherent Project – Navid Nikaein
NFV modelling, composition and chaining in cloudified 5G
© ETSI 2015. All rights reserved
Blueprint of CRAN NFV Service TemplateService layer defintion- VNF- Data model- Relationships- interfaces - Lifecycles- Constraints - Unit - MachineRelationships:- peer-to-peer- Provider/Requirewww.ict-coherent.eu [email protected]
5G‐NORMA demonstrations Prof. Banchs
Two demonstrators shown at the Mobile World Congress 2016Demo 1: Car remote control• Flexible function allocation• Network slicing• Low‐latency network slice
Demo 2:
© ETSI 2015. All rights reserved
Driver’s tablet
Toy car commanded
via low‐latency network slice
Driver’s wireless commands
Low‐latency network slice
Network‐wide function
decomposition and allocation
FROG Global OrchestratorFROG service layer
Exploiting Infrastructure Capabilities to Dynamically OrchestrateNFV Services across Multiple Domains – Fulvio Risso
FROG design goals• Seamless service deployment in heterogeneous infrastructure
• Support for resource‐constrained customer CPEs• Evolve services without major disruption and equipment replacement
• Optimized service deployment: keep functions as close as possible to the customers
Architecture based on a message bus• Brokering of capabilities and resources: a “standard” YANG‐based mechanism to
export information to the orchestration layer• Dynamic adaptation to resource availability
© ETSI 2015. Allrights reserved
Domain 1:Home Gateway
Domain Orchestrator 1
Message bus
Domain 2:OpenFlow network
Domain 3:OpenStack
Domain Orchestrator 2 Domain Orchestrator 3
CONSISTENT NETWORK UPDATES IN SDN ‐ Shukla Apoorv
Problem Statement: In SDN, Asynchronous nature of control channel causes out of order network updates which lead to :a) Skipping of waypoints (middleboxes)b) Occurrence of forwarding loops
Solution: Ensure synchronicity by:a) Divide policy updates in multiple minimum rounds
as per Wayup and Peacock Algorithms a) Use Barrier Requests and Replies for each network
update round
© ETSI 2015. All rights reserved
Violates WPE Violates LF
LF and WPE may ConflictDetermining if a
scenario is solvable is NP-hard(3-SAT
reduction)
METIS‐II visualization and evaluation platform
© ETSI 2015. All rights reserved
Open tool for visualizing and evaluating 5G concepts (also open to other 5G‐PPP projects)Based on Unity3DIn the version shown in ETSI workshop six example concepts developed in METIS‐II are showcased
ASCETIC – Self‐adaptation/Orchestration for energy efficient SaaS operation in Cloud
Self‐adaptation rules in UML stereotypes to OVFSelf‐adaptation rule :
trigger condition ‐> self‐adaptation action list• UML profile elements associated to measurement probes• Triggers on SaaS and IaaS concepts (resp.‐time or CPU/Memory
Usage)• IF percentile(«my-app-event-response-time », 98, 60) < 0.5 THEN
Add VM of type X (Horizontal Scale Up)• IF application-event(«anticipated-light-load») < 2 THEN
Min 1 VM of type X (potential Horizontal Scale Down)
Self‐adaptation rules extracted from a UML model and pacakged in OVF manifest fileASCETIC Operational workflow: • Measurements written by SaaS and IaaS to the PaaS App. Monitor• Trigger expressions evaluated by PaaS SLA Manager• Actions enacted by the PaaS Self‐Adaptation Manager
© ETSI 2015. All rights reserved
The Role of Cloud‐Enabled Small Cells in 5G Technology standardization
SESAME EU 5G‐PPP Project strategy is to maximize the benefits of cloud‐enabled small cells:• leveraging on Software‐Defined Networking (SDN) and Network Function
Virtualization (NFV) principles.• enabling Multi‐tenancy within the Mobile Edge Infrastructure• decoupling edge ICT ownership from virtual (network) service providers
Objectives:• favor large and new entrant operators,• lowering costs of deployment and maintenance • relaxing technical constraints
Relevant international fora in SESAME context: • Standardization initiatives: ETSI MEC, ETSI NFV, 3GPP and
Small Cell Forum/Broadband forum• Open source initiatives: E.g. OPNFV, OpenStack , OpenDaylight
and ONOS
Fostering the incorporation of multi‐tenancy support in MEC and NFV and promoting multi‐tenancy management models at the edge.
© ETSI 2015. All rights reserved
OpenAirInterface: 5G Software Alliance
OpenAirInterface Software Alliance • Open Source 3GPP Compliant LTE Stack (Rel 8/10) for eNB/UE/EPC• 5G Strategic Areas for Evolution towards 5G• Industry‐backed License model for protecting IPR (FRAND License)
© ETSI 2015. All rights reserved
OpenAirInterfaceTM 3GPP Stack 5G Strategic Areas
Programmable platform for 60 GHz comms.
Platform• Baseband processing ‐Model‐based design
• Floa ng point (MATLAB/Simulink) → fixed point → VHDL code (Xilinx System Generator)→ VHDL co‐simula on → HW‐in‐the‐loop (Zynq)
• RF front‐ends• Frequency band 57‐64 GHz• Bandwidth 368.4 MHz• 2x2 MIMO
Channel sounding at 60 GHz band• LFM waveform• In‐door LOS and NLOS measurements
• LOS: office corridor – calculating path loss exponent• NLOS: canteen area – clusters of multipath components
© ETSI 2015. All rights reserved
Contact: Jan Erik Håkegård ([email protected])Tor Andre Myrvoll ([email protected])